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Alzheimer's disease-related mutations in the presenilin-1 gene (PS1) are leading to an elevated production of neurotoxic beta-amyloid 1-42 and may additionally enhance oxidative stress. Here, we provide in vivo evidence indicating that brains of transgenic mice expressing different human Alzheimer-linked PS1 mutations exhibit a reduced activity of two antioxidant enzymes. For this purpose, mice transgenic for human PS1 and for single and multiple PS1 mutations were generated. Mice with multiple PS1 mutations showed a significantly decreased activity of the antioxidant enzymes Cu/Zn superoxide dismutase and glutathione reductase already at an age of 3-4 months. As expected, this effect was less pronounced for the mice with a single PS1 mutation. By contrast, animals bearing normal human PS1 showed significantly elevated enzyme activities relative to non-transgenic littermate controls.
Background Reliable taxonomic identification at the species level is the basis for many biological disciplines. In order to distinguish species, it is necessary that taxonomic characters allow for the separation of individuals into recognisable, homogeneous groups that differ from other such groups in a consistent way. We compared here the suitability and efficacy of traditionally used shell morphology and DNA-based methods to distinguish among species of the freshwater snail genus Radix (Basommatophora, Pulmonata). Results Morphometric analysis showed that shell shape was unsuitable to define homogeneous, recognisable entities, because the variation was continuous. On the other hand, the Molecularly defined Operational Taxonomic Units (MOTU), inferred from mitochondrial COI sequence variation, proved to be congruent with biological species, inferred from geographic distribution patterns, congruence with nuclear markers and crossing experiments. Moreover, it could be shown that the phenotypically plastic shell variation is mostly determined by the environmental conditions experienced. Conclusion Contrary to DNA-taxonomy, shell morphology was not suitable for delimiting and recognising species in Radix. As the situation encountered here seems to be widespread in invertebrates, we propose DNA-taxonomy as a reliable, comparable, and objective means for species identification in biological research.
Enhanced apoptosis and elevated levels of reactive oxygen species (ROS) play a major role in aging. In addition, several neurodegenerative diseases are associated with increased oxidative stress and apoptosis in neuronal tissue. Antioxidative treatment has neuro-protective effects. The aim of the present study was to evaluate changes of susceptibility to apoptotic cell death by oxidative stress in aging and its inhibition by the antioxidant Ginkgo biloba extract EGb761. We investigated basal and ROS-induced levels of apoptotic lymphocytes derived from the spleen in young (3 months) and old (24 months) mice. ROS were induced by 2-deoxy-D-ribose (dRib) that depletes the intracellular pool of reduced glutathione. Lymphocytes from aged mice accumulate apoptotic cells to a significantly higher extent under basal conditions compared to cells from young mice. Treatment with dRib enhanced this difference, implicating a higher sensitivity to ROS in aging. Apoptosis can be reduced in vitro by treatment with EGb761. In addition, mice were treated daily with 100mg/kg EGb761 per os over a period of two weeks. ROS-induced apoptosis was significantly reduced in the EGb761 group. Interestingly, this effect seemed to be more pronounced in old mice.
Apoptosis seems to be involved in immunosenescence associated with aging. Moreover, in lymphocytes (PBL) of patients with Alzheimer's disease, an increased susceptibility to the apoptotic pathway has been described possibly due to impaired protection of oxidative stress. Accordingly, it seemed to be of particular interest to investigate the contribution of normal aging to the susceptibility from human lymphocytes to programmed cell death. We could show that PBL from elderly individuals (>60 years) accumulate apoptosing cells to a significant higher extent in spontaneous and activation-induced cell death compared to younger controls (<35 years). Treatment with the oxidative stressor 2-deoxy-D-ribose or with agonistic-CD95-antibody pronounced this effect even more implicating a higher sensitivity to reactive oxygen species and a higher functional CD95 expression, respectively. In addition, expression of the activation markers HLA-DR and CD95 was significantly increased in CD3+-cells of aged subjects, while expression of CD25 did not seem to be affected by age. Expression of Bcl-2 was increased in aging and correlated with the number of apoptotic cells.
The relevance of physiological immune aging is of great interest with respect to determining disorders with pathologic immune function in aging individuals. In recent years, the relevance of changes in peripheral lymphocytes in age-associated neurologic diseases has become more evident. Due to the lack of immunological studies, covering more than one event after mitogenic activation, we envisaged a new concept in the present study, aiming to investigate several events, starting from T cell receptor (TCR) ligation up to T cell proliferation. In addition, we addressed the question whether changes are present in the subsets (CD4, CD8) with aging. Phosphorylation of tyrosine residues declines with increasing age in CD4+ cells. Fewer levels of CD69 positive cells after 4 h mitogenic activation, altered expression of cytokines (IL2, IFN-gamma and TNF-alpha; 22 h) and lower proliferation (72 h) were determined in aging. Moreover, it could be shown that CD8+ lymphocytes react more effectively to mitogenic stimulation with reference to CD69 expression and proliferation in both age groups (<35 and >60 years old). These data indicate that T cell activation, mediated by TCR engagement, is significantly impaired in aging and both subsets are affected. However, bypassing the TCR does not fully restore T cell function, indicating that there are more mechanisms involved than impaired signal transduction through TCR only. The results will be discussed in relation to their relevance in neurodegenerative and psychiatric disorders.
In vivo manipulation of interleukin-2 expression by a retroviral tetracycline (tet)-regulated system
(1999)
We have used the tetracycline (tet)-regulated system as described previously to evaluate the applicability of controlled gene expression in cancer gene therapy. As a model gene, we used the human interleukin-2 (IL-2) gene, which has been placed under the transcriptional control of the tetO/promoter. Human melanoma cells were transduced by two modified retroviral tet vectors containing the transactivator regulatory unit and the IL-2 gene driven by the tetO/promoter, respectively. In the absence of tet, IL-2 expression in the target cells was stable over several months. IL-2 production was in the range of 40 U/106 cells/24 hours. A fine tuning of IL-2 expression could be achieved by culturing the transduced cells with increasing doses of tet, whereby a concentration of 500 ng/mL tet in the culture medium abrogated IL-2 expression. Most importantly for clinical application, IL-2 expression by the transduced melanoma cells could also be regulated in vivo. When nu/nu mice were inoculated with the transduced tumor cells, they failed to develop tumors. Instead, the inhibition of IL-2 expression in the transduced tumor cells by oral administration of tet led to subcutaneous tumor growth; this growth rate was comparable with the growth rate of subcutaneously inoculated untransduced parental cells. The finding demonstrates the applicability of the tet-regulated system in cancer gene therapy.
Many cases of early-onset inherited Alzheimer's disease (AD) are caused by mutations in the presenilin-1 (PS1) gene. Expression of PS1 mutations in cell culture systems and in primary neurons from transgenic mice increases their vulnerability to cell death. Interestingly, enhanced vulnerability to cell death has also been demonstrated for peripheral lymphocytes from AD patients. We now report that lymphocytes from PS1 mutant transgenic mice show a similar hypersensitivity to cell death as do peripheral cells from AD patients and several cell culture systems expressing PS1 mutations. The cell death-enhancing action of mutant PS1 was associated with increased production of reactive oxygen species and altered calcium regulation, but not with changes of mitochondrial cytochrome c. Our study further emphasizes the pathogenic role of mutant PS1 and may provide the fundamental basis for new efforts to close the gap between studies using neuronal cell lines transfected with mutant PS1, neurons from transgenic animals, and peripheral cells from AD patients. Copyright 2001 Academic Press.
The generation of O2- by NADPH oxidaes was mainly attributed to immune cells that kill invading bacteria or cancer cells. But importantly, in the past several years, several homologs of the catalytic subunit gp91phox (Nox2) of the phagocytic NADPH oxidase have been identified in non-immune cells and tissues. Superoxide production derived from NADPH oxidaes has been shown to play a role not only in host defense but also in defined signaling cascades mediating growth and apoptosis. The aim of this work was to study the expression and the regulation of the”new” Nox isoforms in rat renal mesangial cells (MC). In particular the following results were achieved. 1) mRNA’s for both Nox1 and Nox4 were detected by RT-PCR. 2) Nox1 mRNA levels were increased upon exposure to basic fibroblast growth factor (bFGF), platelet-derived growth factor (PDGF) and fetal calf serum (FCS) in a time- and dose-dependent manner. Exposure of MC to bFGF and FCS increased also basal production of reactive oxygen species (ROS) by MC. By contrast, Nox4 mRNA levels were not significantly affected by bFGF treatment, but were markedly down-regulated by PDGF and FCS. 3) To study the regulation of Nox1 on the protein level, an anti-Nox1 antibody was generated and characterized using affinity chromatography. Up-regulation of Nox1 expression by growth factors was confirmed also on the protein level. 4) Based on the already known cDNA sequence for Nox1, the transcriptional start site was determined by the “gene RACE” technique. 2547 bp of the genomic sequence of the 5´-flanking region of the Nox1 gene were cloned and sequenced using the „Genome-Walking“ method. To study the regulation of Nox1 transcription functional Nox1 promoter/luciferase fusions were be established. MC were transiently transfected with different promoter/luciferase constructs and stimulated with growth factors. By measuring luciferase activity it was determined that growth factors induced the Nox1 transcription and that the Nox1 core promoter is sufficient for the activation. 5) By measurement of superoxide radicals and analysis of Nox1 mRNA expression by quantitative RT-PCR (TaqMan) as well as protein level by Western blotting it could be shown that treatment of MC with NO donors inhibited the expression of Nox1 in a time- and dose-dependent manner. Moreover, using activators and inhibitors of the soluble guanylyl cyclase (sGC) it could be shown, that the activation of sGC mediates the effect of NO on Nox1 expression. However, NO had no inhibitory effect on Nox1 promoter activity. Experiments with the inhibitor of transcription, actinomycin D, suggest that NO-mediated regulation of Nox1 is triggered probably via post-transcriptional mechanisms. Nox4 is regulated on the mRNA levels in a similar manner as Nox1. 6) To analyze the sub-cellular localization of the Nox isoforms, coding sequences for Nox1 and Nox4 were fused together with green fluorescent protein into the pEGFP-N1 demonstrated that both isoforms are localized predominantly in the plasma membrane, but also in the perinuclear region and cytoplasm. However, the localization of Nox1 in the plasma membrane was more pronounced. 7) In addition to Nox1 and Nox4, mRNA of the newly identified NOXA1 that is a homolog of the p67phox subunit of NADPH oxidase was detected in MC by RT-PCR.
In large models of neuronal cell death, there is a tight correlation between Cdk5 deregulation and cell-cycle dysfunction. However, pathways that link Cdk5 to the cell cycle during neuronal death are still unclear. We have investigated the molecular events that precede p25/Cdk5-triggered neuronal death using a neuronal cell line that allows inducible p25 expression. In this system, no sign of apoptosis was seen before 24 hours of p25 induction. Thus, at that time, cell-cycle-regulatory proteins were analysed by immunoblotting and some of them showed a significant deregulation. Interestingly, after time-course experiments, the earliest feature correlated with p25 expression was the phosphorylation of the retinoblastoma protein (Rb). Indeed, this phosphorylation was observed 6 hours after p25 induction and was abolished in the presence of a Cdk5 inhibitor, roscovitine, which does not inhibit the usual Rb cyclin-D kinases Cdk4 and Cdk6. Furthermore, analyses of levels and subcellular localization of Cdk-related cyclins did not reveal any change following Cdk5 activation, arguing for a direct effect of Cdk5 activity on Rb protein. This latter result was clearly demonstrated by in vitro kinase assays showing that the p25-Cdk5 complex in our cell system phosphorylates Rb directly without the need for any intermediary kinase activity. Hence, Rb might be an appropriate candidate that connects Cdk5 to cell-cycle deregulation during neuronal cell death.
The identification of specific genetic (presenilin-1 [PS1] and amyloid precursor protein [APP] mutations) and environmental factors responsible for Alzheimer's disease (AD) has revealed evidence for a shared pathway of neuronal death. Moreover, AD-specific cell defects may be observed in many other nonneuronal cells (e.g., lymphocytes). Thus, lymphocytes may serve as a cellular system in which to study risk factors of sporadic, as well as genetic AD in vivo. The aim of our present study was to clarify whether lymphocytes bearing genetic or sporadic risk factors of AD share an increased susceptibility to cell death. Additionally we examined whether a cell typespecific vulnerability pattern was present and how normal aging, the main risk factor of sporadic AD, contributes to changes in susceptibility to cell death. Here, we report that lymphocytes affected by sporadic or genetic APP and PS1 AD risk factors share an increased vulnerability to cell death and exhibit a similar cell type-specific pattern, given that enhanced vulnerability was most strongly developed in the CD4+ T-cell subtype. In this paradigm, sporadic risk factors revealed the highest impact on cell type-specific sensitivity of CD4+ T cells to apoptosis. In contrast, normal aging results in an increased susceptibility to apoptosis of both, CD4+ and CD8+ T cells.
Introduction: Reactive oxygen species (ROS) have been implicated in neurodegeneration and seem to be involved in the physiology and pathophysiology of several diseases, including normal aging and Alzheimer’s disease (AD). Enhanced ROS production in aging or AD is not restricted to the brain, but can also been seen in several peripheral tissues. The objective of the present study was to evaluate whether the mechanisms involved in the generation of oxidative stress in normal senescence and Alzheimer’s disease are identical or not. Methods: We analysed intracellular basal levels of ROS in lymphocytes from AD patients and healthy young and aged not-demented subjects as well as ROS levels following stimulation with d-ribose and staurosporine in all three groups. ROS levels were measured by flow cytometry using the intracellular fluorescence dye dihydrorhodamine123 (DHR123). Results: Our study shows that AD lymphocytes have increased basal levels of ROS, low susceptibility to ROS stimulation by 2-deoxy-D-ribose (dRib) and an increased response to staurosporine when compared with age-matched controls. Discussion: The data suggest that the defect(s) responsible for enhanced ROS production in AD may involve different or additional biological pathways than those involved in enhanced ROS generation during aging.
As major sources of reactive oxygen species (ROS), mitochondrial structures are exposed to high concentrations of ROS and may therefore be particularly susceptible to oxidative damage. Mitochondrial damage could play a pivotal role in the cell death decision. A decrease in mitochondrial energy charge and redox state, loss of transmembrane potential (depolarization), mitochondrial respiratory chain impairment, and release of substances such as calcium and cytochrome c all contribute to apoptosis. These mitochondrial abnormalities may constitute a part of the spectrum of chronic oxidative stress in Alzheimer's disease. Accumulation of amyloid beta (Abeta) in form of senile plaques is also thought to play a central role in the pathogenesis of Alzheimer's disease mediated by oxidative stress. In addition, increasing evidence shows that Abeta generates free radicals in vitro, which mediate the toxicity of this peptide. In our study, PC12 cells were used to examine the protective features of EGb 761(definition see editorial) on mitochondria stressed with hydrogen peroxide and antimycin, an inhibitor of complex III. In addition, we investigated the efficacy of EGb 761 in Abeta-induced MTT reduction in PC12 cells. Moreover, we examined the effects of EGb 761 on ROS levels and ROS-induced apoptosis in lymphocytes from aged mice after in vivo administration. Here, we will report that EGb 761 was able to protect mitochondria from the attack of hydrogen peroxide, antimycin and Abeta. Furthermore, EGb 761 reduced ROS levels and ROS-induced apoptosis in lymphocytes from aged mice treated orally with EGb 761 for 2 weeks. Our data further emphasize neuroprotective properties of EGb 761, such as protection against Abeta-toxicity, and antiapoptotic properties, which are probably due to its preventive effects on mitochondria.
FGF-2, a potent multifunctional and neurotrophic growth factor, is widely expressed in the brain and upregulated in cerebral ischemia. Previous studies have shown that intraventricularly or systemically administered FGF-2 reduces the size of cerebral infarcts. Whether endogenous FGF-2 is beneficial for the outcome of cerebral ischemia has not been investigated. We have used mice with a null mutation of the fgf2 gene to explore the relevance of endogenous FGF-2 in brain ischemia. Focal cerebral ischemia was produced by occlusion of the middle cerebral artery (MCAO). We found a 75% increase in infarct volume in fgf2 knock-out mice versus wild type littermates (P < 0.05). This difference in the extent of ischemic damage was observed after 24 h, and correlated with decreased viability in fgf2 mutant mice following MCA occlusion. Increased infarct volume in fgf2 null mice was associated with a loss of induction in hippocampal BDNF and trkB mRNA expression. These findings indicate that signaling through trkB may contribute to ameliorating brain damage following ischemia and that bdnf and trkB may be target genes of FGF-2. Together, our data provide the first evidence that endogenous FGF-2 is important in coping with ischemic brain damage suggesting fgf2 as one crucial target gene for new therapeutic strategies in brain ischemia.
The heat stress response is characterized by the presence of heat stress transcription factors (Hsfs) which mediate transcription of heat stress genes. In tomato (Lycopersicon peruvianum) cell cultures the simultaneous expression of four Hsfs, which are either constitutively (HsfA1 and HsfA3) or heat-stress inducible (HsfA2 and HsfB1) expressed, results in a complex network with dynamically changing cellular levels, intracellular localization and functional interactions. In order to examine the relevance of their multiplicity as well as to get more insights into the complexity of the plant heat stress response, the individual tomato Hsfs were investigated with respect to their protein interactions in vitro and in vivo. To this aim, I used pull-down assays as well as yeast assays to study the following aspects: 1. Oligomeric state of Hsfs: the results show that all class A Hsfs (HsfA1, HsfA2 and HsfA3) are trimeric proteins and interact with each other via the oligomerization (HR-A/B) domain. The similarity of their HRA/B regions allows formation of homo- and heterooligomeric complexes between all class A Hsfs. This special property was investigated by mutational studies with HsfA2 indicating that the linker and the HR-B regions are the minimal part required for Hsf/Hsf interactions. The conserved hydrophobic amino acid residues of the HR-B region are most important whereas the amino acid residues of the linker may provide higher flexibility to the HR-B region. Another investigated factor was HsfB1. HsfB1 is a member of class B Hsfs, which are characterized by an oligomerization domain without the 21 amino acid residues linker inserted between the HR-A and HR-B regions. It has a low activator potential and exists exclusively as dimer. HsfB1 can not physically interact with class A Hsfs. However, HsfB1 and HsfA1, binding to adjacent HSE sites, are assumed to cause strong synergistic effects in gene activation. 2. Potential HsfB1 interacting proteins: we searched for HsfB1 interacting proteins by using recombinant His-tagged proteins with HsfB1 as baits in pull-down assays. Histones H2A, H2B and H4 were identified by means of Peptide Mass Finger Printing and N-terminal sequencing analyses. The three histones represent the major proteins in tomato whole cell extracts retrieved by HsfB1. 3. HsfA2/small heat stress proteins (sHsps) interaction: pull-down and yeast two-hybrid assays were used to study the specific interaction of HsfA2 with tomato class II sHsp. This interaction occurs via the oligomerization domain of HsfA2. Other members of the plant Hsp20 family, including class I sHsp, do not interact with HsfA2. Heterooligomers of HsfA2 with class II sHsp may represent precursor forms of the plant higher molecular weight cytoplasmic complexes of heat stress granules, which form during heat stress. The findings presented in this thesis are a contribution to support the concept of a Hsfs network via protein-protein interactions. These data, together with information obtained from other studies, are used to propose a tentative model of the complex Hsfs network controlling the plant heat stress response.
Identification and characterization of TNFalpha responsive genes in human breast cancer cells
(2006)
One of the hallmarks of cancer is the escape of the transformed cells from apoptosis. Therefore, the identification of survival genes, allowing cancer cells to circumvent programmed cell death, could provide new diagnostic markers as well as targets for therapeutic intervention. A well known transcription factor regulating the balance between pro- and anti- apoptotic factors is NF-kappaB, which is strongly induced by tumor necrosis factor alpha (TNFalpha). When cells are stimulated by TNFalpha their response is biphasic with an initial NF-kappaB induction of survival genes which is overridden by the subsequent activation of initiator caspases triggering apoptosis. By combining gene trap mutagenesis with site specific recombination a strategy was developed, which enriches for genes induced by TNFalpha in the human breast cancer cell line MCF-7. The strategy relies on a one way gene expression switch based on Cre/loxP mediated recombination, which uncouples the expression of a marker gene from the trapped cellular promoter thereby enabling the recovery of genes that are only transiently induced by TNFalpha. The marker gene used in these experiments was a dominant negative variant of the TNFalpha-receptor associated protein FADD (dnFADD), which blocks the apoptotic branch of the TNFalpha induced signaling pathway. Initial experiments indicated that MCF-7 cells expressing high levels of dnFADD were insensitive to TNFalpha induced apoptosis and therefore suitable for the installment of a one way gene expression switch susceptible to Cre/loxP mediated recombination. A MCF-7 reporter clone harboring the recombinase dependent gene expression switch was infected with the gene trap retrovirus U3Cre, which inserts the Cre recombinase gene into a large collection of chromosomal sites. Insertion of Cre downstream of an active cellular promoter induces dnFADD expression from the gene expression switch enabling the cells to block TNFalpha triggered apoptosis. From a gene trap integration library containing approximately 2000000 unique proviral integrations, 69 unique TNFalpha inducible gene trap insertion sites were recovered in a two step selection procedure. Sequencing of the genomic regions adjacent to the insertion sites, which were obtained by inverse PCR (gene trap sequence tags, GTSTs), and data base analysis revealed that 42% of the GTSTs belonged to annotated genes, 13% to known cDNAs with open reading frames, 17% to Genscan predicted genes, 9% to ESTs, 9% to repetitive sequences and 10% to unannotated genomic sequence. Overall, 44% of the annotated genes recovered in this screen were directly or indirectly related to cancer, indicating that the gene trap strategy developed here is suitable for the identification of cancer relevant genes. Analysis of the expression patterns of the trapped and annotated genes in wild type cells revealed that 19 out of 24 genes were either up- or down- regulated by a factor of at least 1.45 by TNFalpha. A large fraction of the gene trap insertions were located upstream, in introns or in opposite orientation to annotated transcripts, indicating that the strategy efficiently recovers non-coding RNAs (ncRNAs). While the biological significance of these transcripts still needs to be elucidated, they fall into two main categories. The first category includes gene trap insertions upstream of genes, which could either represent regulatory RNAs interacting with promoter elements or transcripts driven by bidirectional promoters. The second includes inverse orientation gene trap insertions in introns of annotated genes suggesting the presence of natural antisense transcripts (NATs). Interestingly, more than 50% of all antisense integrations are located downstream of transcription start sites predicted by different algorithms supporting the existence of RNAs transcribed from the corresponding genomic regions. Intronic integrations on the coding strand could be derived from cryptic splicing, alternative promoter usage or additional, so far uncharacterized transcripts. Preliminary functional analysis of two genes recovered in this screen encoding the transcription factor ZFP67 and the FLJ14451 protein revealed that FLJ14451 but not ZFP67 inhibited anchorage independent growth in soft agar, suggesting that FLJ14451 might have some tumor suppressor functions. In summary, besides identifying a putative tumor suppressor protein, the present experiments have shown that gene trapping is useful in identifying non-coding transcripts in living cells and may turn out to be the method of choice in characterizing these transcripts whose functions are still largely unknown.
The multidrug resistance like protein 1 (Mdl1p) belongs to the class of ATP binding cassette (ABC) transporters which comprise a large family of membrane proteins utilising ATP hydrolysis to drive up-hill transport of a wide variety of solutes across membranes. Mdl1p is a mitochondrial ABC transporter involved in the export of protein fragments derived from the proteolysis of non-assembled inner membrane proteins out of the mitochondrial matrix. Mdl1p forms a homodimeric complex consisting of two polytrophic transmembrane domains (TMDs) and two nucleotide binding domains (NBDs). The transport function and structural organisation of Mdl1p have not been elucidated yet. To characterise the ATP hydrolysis cycle of Mdl1p, the His-tagged NBD (amino acids D423-R695) was over-expressed in Escherichia coli and purified to homogeneity. The isolated NBD was active in ATP binding and hydrolysis. The ATPase activity was non-linear regarding to the protein concentration, indicating that the functional state is a dimer. Dimeric catalytic transition states could be trapped and three different intermediate states were isolated, containing two ATPs, one ATP and one ADP, or two DPs, which are trapped by orthovanadate or beryllium fluoride. These experiments showed that (i) ATP binding to the NBDs induces dimerisation, (ii) in all isolated dimeric states, two nucleotides are present, (iii) phosphate can dissociate from the dimer, (iv) both nucleotides are hydrolysed, and (v) hydrolysis occurs in a sequential mode. Studies in the workgroup systematically screened for over-expression of the full-length Mdl1p and expression conditions were optimised. These studies showed that highest expression was obtained in S. cerevisiae, where the protein was over-expressed 100-fold. In this work over-expressed His-tagged protein was purified via immobilised metal-ion affinity chromatography that was active in ATP binding and hydrolysis with a turn-over of 2.5 ATP per second. N-terminal amino acid sequencing of purified Mdl1p by Edman degradation confirmed experimentally a N-terminal targeting sequence of a mitochondrial ABC transporter of S. cerevisiae for the first time. This sequence was determined to be 59 amino acids in length. Mdl1p was reconstituted into liposomes, which was confirmed by freeze fracture electron microscopy. The reconstituted protein showed ATP hydrolysis similar to the solubilised Mdl1p. However peptide translocation with radiolabelled X(8) or X(23) libraries as done for the transporter associated with antigen processing TAP could not be shown with this setup. Furthermore, structural insights of the mitochondrial transport complex and its oligomeric state were obtained via single particle electron microscopy. It was shown that Mdl1p forms a homodimer in detergent. These in vitro studies provide the basis for further detailed investigation of the mitochondrial ABC transporter Mdl1p.
The present work wishes to contribute with information on two members of the primary active transporter group, which differ both in structure and function: Wilson Disease Protein which uses the energy released by ATP hydrolysis to transport copper across cell membranes, and Proteorhodopsin, which uses the energy of light to build up a proton gradient across the bacterial cell membrane, both heterologously expressed in Xenopus laevis oocytes. The surface detection experiments using HA-tagged WNDP confirm the proposed topology of WNDP. The HA-tag per se does not interfere with the function of WNDP, as shown for WNDP HA56 by ATP-dependent phosphorylation after expression in Sf9 cells. Sequence modifications within the WNDP HA56 template-construct reveal some interesting features: i) the N-terminal domain, which contains the 6 metal binding sites, is not necessary for plasma membrane targeting; ii) elevated surface expression of WNDP was observed when the carboxy terminus containing the tri-Leu motif is missing, which suggests that this motif might be involved in the retrieval of the protein from the plasma membrane; iii) the mutations TGE>AAA (proposed to lock the protein in the E1 conformation and lead to constitutive plasma membrane localisation) and D1027A (phosphorylation deficient) did not interfere with the surface localisation of the protein; iv) the mutations CPC>SPS (copper transport deficient) and H1069Q (phosphorylation deficient, most common mutation in Wilson Disease) reduced plasma membrane expression to less then 50%. Western blot analysis shows that the overall expression level of all constructs is similar to that of the reference construct WNDP HA56. These findings suggest that motifs involved in copper binding and catalytic activity do not interfere with plasma membrane targeting of WNDP in Xenopus oocytes. However, the H1069Q mutation could interfere with the distribution of WNDP protein within the cells. In the case of Proteorhodopsin, data presented in this work support earlier observations according to which proteorhodopsin can operate as an outwardly and inwardly directed light-driven ion pump. The residues proposed to play the roles of proton donor (E108) and acceptor (D97) are important for proton translocation. In the absence of an anionic residue at position 97 no outward pumping takes place, but inward charge translocation may occurs under appropriate conditions. An M-like state similar to that known from BR detectably accumulates under neutral pH conditions or under conditions where reprotonation of the Schiff base from the cytoplasmic side is slowed down, as in case of the mutants at position 108. Under acidic conditions PR pumps inwardly under the concerted action of pH and transmembrane potential. The experiments performed in parallel with PR and BR wild-types brought not only interesting information about similarities and differences between the two retinylidene ion pumps, but also led to the observation that the life-time of the M state in BR wild-type can be extended in addition to hyperpolarising transmembrane potentials also by extracellular acidic pH, when the proton gradient through the cell membrane is directed opposite to the ion transport (i.e. when the electrochemical gradient opposing the direction of proton transport increases). Direct photocurrent measurements of HA-tagged PR and BR have shown that the inserted tag may interfere with the functionality of the protein. Next to E108 and D97 in PR other residues in the vicinity of the retinal binding pocket contribute to the translocation of protons, as exemplified by the mutant L105Q: additionally to changing the absorption maximum of the protein, this mutant is a less effective proton pump than the wild type. The example of PR suggests that transduction of light energy by – and reaction mechanisms of retinylidene ion pumps have not been entirely deciphered by the extensive studies of bacteriorhodopsin.
Studies in particular of the last decade showed that active neurogenesis continuously takes place in the subventricular zone (SVZ) of the lateral ventricles of the adult rodent brain. Neurogenesis in the SVZ leads to migration of neuroblasts within the rostral migratory stream (RMS) and mature neuron formation mainly in the olfactory bulb (OB). According to present understanding, glial cells with astrocytic properties represent the actual adult neural stem cells. The cell types representing the various cellular transition states leading to the formation of mature neurons as well as the mechanisms controlling adult neurogenesis and neuroblast migration are poorly understood. A previous study from this laboratory demonstrated that the ATP-hydrolyzing enzyme nucleoside triphosphate diphosphohydrolase 2 (NTPDase2) is associated with type B cells, the presumptive neural stem cells. NTPDase2 is a protein of the plasma membrane with its catalytic site facing the extracellular space. It hydrolyzes extracellular nucleoside triphosphates to their respective nucleoside diphosphates. This raises the possibility that the signaling pathway via extracellular nucleotides is involved in the control of adult neurogenesis. Neurons as well as glial cells express several subtypes of receptors (P2 receptors) that are responsive to the nucleotides ATP, ADP, UTP, or UDP. P2X receptors are ATP-gated Na+, K+ and Ca2+ permeable ion channels, P2Y receptors are coupled to trimeric G-proteins. In order to probe for a functional role of nucleotides in adult neurogenesis, the present study referred to an in vitro system (neurospheres). Neurospheres produced from isolates of the mouse SVZ and cultured in the presence of EGF and bFGF expressed the neural stem cell marker nestin and also GFAP, S100β, NTPDase2 and tissue non-specific alkaline phosphatase. Neurospheres generated from the cells of the subventricular zone were multipotenital. This was revealed by immunostaining of differentiated cells with markers for astrocytes, neurons and oligodendrocytes. The presence of ecto-nucleotidase was verified by analyzing the free phosphate released from nucleotides. The tissue non-specific form of alkaline phosphatase was the predominant enzyme. Both NTPDase2 and TNAP could be identified by immunocytochemistry and Western blotting. Hydrolysis was not observed for p-nitrophenyl thymidine monophosphate, a substrate of members of the ectonucleotide pyrophosphatase/phosphodiesterase family (NPP1 to NPP3). Since ecto-nucleotidases control the availability of extracellular nucleotide agonists, neurospheres were studied for the potential expression and functional role of nucleotide receptors. Neurospheres responded to extracellular nucleotides with a transient rise in Ca2+ (ATP = ADP > UTP). The rise in Ca2+ was due to P2Y receptors. The Ca2+ response was unaltered in the absence of extracellular Ca2+ and strongly reduced by thapsigargin, a blocker of internal Ca2+ stores. The P2Y1 antagonist MRS2179 strongly reduced the ATP- or ADP-induced increase in Ca2+, suggesting the involvement of a P2Y1 receptor. In addition, suramin and PPADS, non-selective antagonists for P2 receptors, inhibited most of the Ca2+ response. The agonistic activity of UTP and the lack of response to UDP implied the additional presence of a P2Y2 and/or a P2Y4 receptors and the absence of a functional P2Y6 receptor. RT-PCR experiments demonstrated that neurospheres expressed P2Y1 and P2Y2 receptors but not P2Y4 receptor. That the majority of the Ca2+ response to ATP was mediated via P2Y1 receptors was also confirmed by analysis of P2Y1 knockout mice and by application of the P2Y1 receptor-specific antagonist MRS2179. In addition, agonists of P2Y1 and P2Y2 receptors and low concentrations of adenosine augmented cell proliferation inspite of the presence of mitogenic growth factors. Neurosphere cell proliferation was attenuated after application of MRS2179 and in neurospheres from P2Y1 receptor knockout mice. These results infer a nucleotide receptor-mediated synergism that augments growth factor-mediated cell proliferation. Taken together these results suggest that P2Y-mediated nucleotidergic signalling is involved in neurosphere function and possibly also in adult neurogenesis in situ.
Active neurogenesis continuously takes place in the dentate gyrus of the adult mammalian brain. The dentate gyrus of the adult rodent hippocampus contains an astrocytelike cell population that is regarded as residual radial glia. These cells reside with their cell bodies in the subgranular layer (SGL). Radial processes traverse the granule cell layer (GCL) and form bushy ramifications in the inner molecular layer (IML). The residual radial glial cells apparently represent neuronal progenitor cells that can give rise to functionally integrated granule cells. To date the cellular and molecular events driving a subpopulation of these cells into neurogenesis as well as the cellular transition states are poorly understood. The present study shows, that in the mouse dentate gyrus, this cell type selectively expresses surfacelocated ATPhydrolyzing activity and is immunopositive for nucleoside triphosphate diphosphohydrolase 2 (NTPDase2). NTPDase2 is an ectoenzyme and hydrolyzes extracellular nucleoside triphosphates such as ATP or UTP to their respective nucleoside diphosphates. The enzyme becomes expressed in the hippocampus during late embryogenesis from E17 onwards, and is thus not involved in early brain development. Its embryonicpattern of expression mirrors dentate migration of neuroblasts and the formation of the primary and finally the tertiary dentate matrix. NTPDase2 is also expressed by a transient population of cortical radial glia from late embryonic development until postnatal day 5. NTPDase2 can be employed as a novel markerfor defining cellular transition states along the neurogenic pathway. It is associated with subpopulations of GFAP and nestinpositive cells. These intermediate filaments are typically expressed by the progenitor cells of the dentate gyrus. In addition there is a considerable overlap with doublecortinand PSANCAM positive cells. The expression of the microtubuleassociated protein doublecortin and of PSANCAM which are expressed by migrating neuroblasts is indicative of a transition of progenitors to a neural phenotype or an immature form of granule cell. NTPDase2 is no longer associated with young neurons and with maturegranule cells, as indicated by the lack of doubleimmunostaining for III tubulin and NeuN, respectively. Furthermore, β S100positive astrocytes do not express NTPDase2 validating that NTPDase2 is also not associated with later stages of gliogenesis. Experiments with the Sphase marker bromodeoxyuridine (BrdU) demonstrate that NTPDase2positive cell proliferate. Postmitotic BrdU-labeled cells preferentially acquire an NTPDase2positive phenotype. Many of these cells were also positive for GFAP. The contribution of BrdUlabeled cells positive for NTPDase2 increased with time from 2 h to 72 h, validating a strong association of NTPDase2 with proliferating cells of the dentate gyrus. The colocalization studies with various markers and the results of the experiments suggestthat NTPDase2 is associated with cell types of varying maturation states but not with mature neurons or astrocytes. Studies on the formation of neurospheres from the dentate gyrus validate previous data suggesting that the hippocampal progenitors have little capacity for self renewal in vitro. In situ hybridization results indicate the presence of one of the metabotropic purinergic receptor subtypes (the P2Y1 receptor) within the adult neurogenic regions, the dentate gyrus and the lateral walls of the lateral ventricles. A patchclamp analysis demonstrates the presence of functional ionotropic nucleotide receptor (P2X receptors) in progenitor cells expressing nestin promotordriven GFP. They suggest that the signaling pathway via extracellular nucleotides and nucleotide receptors may play a role in the control of adult hippocampal neurogenesis.
Background The reciprocal (9;22) translocation fuses the bcr (breakpoint cluster region) gene on chromosome 22 to the abl (Abelson-leukemia-virus) gene on chromosome 9. Depending on the breakpoint on chromosome 22 (the Philadelphia chromosome – Ph+) the derivative 9+ encodes either the p40(ABL/BCR) fusion transcript, detectable in about 65% patients suffering from chronic myeloid leukemia, or the p96(ABL/BCR) fusion transcript, detectable in 100% of Ph+ acute lymphatic leukemia patients. The ABL/BCRs are N-terminally truncated BCR mutants. The fact that BCR contains Rho-GEF and Rac-GAP functions strongly suggest an important role in cytoskeleton modeling by regulating the activity of Rho-like GTPases, such as Rho, Rac and cdc42. We, therefore, compared the function of the ABL/BCR proteins with that of wild-type BCR. Methods We investigated the effects of BCR and ABL/BCRs i.) on the activation status of Rho, Rac and cdc42 in GTPase-activation assays; ii.) on the actin cytoskeleton by direct immunofluorescence; and iii) on cell motility by studying migration into a three-dimensional stroma spheroid model, adhesion on an endothelial cell layer under shear stress in a flow chamber model, and chemotaxis and endothelial transmigration in a transwell model with an SDF-1α gradient. Results Here we show that both ABL/BCRs lost fundamental functional features of BCR regarding the regulation of small Rho-like GTPases with negative consequences on cell motility, in particular on the capacity to adhere to endothelial cells. Conclusion Our data presented here describe for the first time an analysis of the biological function of the reciprocal t(9;22) ABL/BCR fusion proteins in comparison to their physiological counterpart BCR.