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Air-sea feedbacks between the Mediterranean Sea and the atmosphere on various temporal and spatial scales play a major role in the Mediterranean regional climate system and beyond. The Mediterranean Sea is a source of moisture due to excess evaporation and, on a long-term average, is associated with a warming of the lower atmosphere in contact with the sea surface due to heat loss at the air-sea interface. The complex air-sea interactions and feedbacks in the Mediterranean basin strongly modulate the sea surface fluxes and favor several cyclogenetic activities under certain meteorological conditions. Examples of such cyclonic activities are medicanes (Mediterranean hurricanes) and Vb-cyclones. Medicanes are mesoscale, marine, and warm-core Mediterranean cyclones that exhibit some similarities to tropical cyclones, while Vb-cyclones are extra-tropical cyclones, that propagate from the Western Mediterranean Sea and travel across the Eastern European Alps into the Central European region. Extremely strong winds and heavy precipitation associated with these cyclones can lead to severe destruction and flooding. Changes in the intensity and frequency of these cyclones are also projected under changing future climate conditions, where the Mediterranean region has been identified as a hotspot in terms of rising temperatures.
The development of high-resolution regional climate models (RCMs) has progressed our understanding of the processes characterizing the Mediterranean climate. However, large uncertainties still exist regarding the estimates of air-sea fluxes, which, in turn, affect the simulation of the Mediterranean climate. Several factors can be attributed to such discrepancies, such as data quality, temporal and spatial resolution, and the misrepresentation of physical processes. To overcome some of these inconsistencies and deficiencies of the existing climate simulations, a new high-resolution atmosphere-ocean regional coupled model (AORCM) has been developed to simulate the air-sea feedback mechanisms. This coupled model incorporates the coupling of RCM COSMO-CLM (CCLM) and the regional ocean model NEMO-MED12 for the Mediterranean Sea (MED) as well as NEMO-NORDIC for the North- and Baltic Sea (NORDIC). Several experiments were performed using both the coupled and uncoupled models to investigate the impact of air-sea interactions and feedbacks on sea surface heat fluxes, wind speed, and on the formation of Mediterranean cyclones (i.e., medicanes and Vb-cyclones). These experiments were performed using different horizontal atmospheric grid resolutions to analyze the effect of resolution on sea surface heat fluxes, wind speed, and the development of medicanes.
The results of the present study indicate that a finer atmospheric grid resolution ([is as appreciated as]9 vs. [is as appreciated as]50 km) improved the wind speed simulations (particularly near coastal areas) and subsequently improved the simulations of the turbulent heat fluxes. Both parameters were better simulated in the coupled simulations than in the uncoupled simulations, but coupling introduced a warm SST bias in winter. Radiation fluxes were slightly better represented in coarse-grid simulations than in fine-grid simulations. However, the higher-resolution coupled model could reproduce the observed net outgoing total surface heat flux over the Mediterranean Sea. In addition to that sub diurnal SST variations have a strong effect on sub-daily heat fluxes and wind speed but minor effects at longer timescales. Regarding the impact of atmospheric grid resolution ([is as appreciated as]50, 25, and [is as appreciated as]9 km) and ocean coupling on medicanes, it was detected that the coupled model with a finer atmospheric grid ([is as appreciated as]9 km) was able to not only reproduce most medicane events, but also improved the track length, warm core, and wind speed compared to the uncoupled model. The coupled model with the coarse-grid ([is as appreciated as]50 and [is as appreciated as]25 km) did not show any improvement in simulating medicanes compared to the uncoupled model. The spectral nudging technique, applied on the wind components above 850 hPa in the interior domain to keep large-scale circulation close to the driving data (i.e., ERAInterim reanalysis), improved the accuracy of the times and locations of generated medicanes, but no improvement was found in the track length and intensity.
Concerning the role of the Mediterranean Sea coupling on Vb cyclones, the investigation showed that atmosphere-ocean coupling had an overall positive impact, although with a strong case-by-case variation, on the trajectories and intensity of Vb-cyclones as a result of the variation in moisture source for each event. In general, all model configurations could replicate Vbcyclones, their trajectories, and associated precipitation fields. The average structure of the precipitation field was best represented in the coupled simulations. Coupling of the North- and Baltic Seas also showed an improvement in some of the simulated Vb-cyclones.
The atmosphere-ocean coupling showed an overall positive impact on the simulation of sea surface heat fluxes and Mediterranean cyclones (medicanes and Vb-cyclones). Moreover, the representation of sea surface heat fluxes, wind speed, and medicane features was more realistic when using a finer atmospheric grid resolution (less than 10 km). The present study suggests that the combination of a finer atmospheric grid resolution together with atmosphere-ocean coupling is advantageous in simulating the Mediterranean climate system.
This study investigates a historical event that occurred during the Indonesian Revolution as depicted in Indonesian historical films and argues that these films not only attempt to depict the past but also use the past as a means of social commentary, teaching moral insight, and historical reinforcement. The historical films selected are The Long March (Darah dan Do’a) (1950) and Mereka Kembali (1972). Both films deal with the Long March event experienced by the troops of the Siliwangi Division in 1948. These troops were previously assigned to infiltrate Yogyakarta and its surrounding areas. They were instructed to march back to their original base in West Java as a part of the military strategies to confront the Dutch during the Indonesian Revolution, also known as the Indonesian War of Independence. This event became known as the Long March of the Siliwangi Division. This study examines not only the representation of the past or the texts of the films but also the production process, which includes the motivations of the filmmakers and the public reception when the films were screened for the public at the time—in 1950 and 1972, respectively. This approach provides a broader and richer dimension, valuable insights into the behind-the-scenes process of making the selected historical films, and essential information about the public reception of the films. From the production point of view, there are two main reasons for making these historical films: personal reason and social engagement. Further, the military also plays a vital role in these historical film productions. From the historical representation aspect, these two films depict the events of the Long March of the Siliwangi Division as a journey full of various obstacles and difficulties, such as harsh terrain, lack of food, battles against the Dutch, and internal disputes with fellow Indonesians: Darul Islam. From the reception aspect, the audience’s point of view, these films provide several representations that meet their expectations about the Long March of the Siliwangi Division. However, the audience disagrees with some of the other representations. Finally, the study revealed that historical films are potential vehicles for telling, interpreting, entertaining, legitimating and preserving the past. In addition, this study has a vital implication for reopening the tradition of Indonesian film studies and reigniting attention to old films.
Proteostasis stressors that destabilize the cellular proteome, like heat shock, trigger transcription and translational reactions leading to the accumulation of heat shock proteins, also called molecular chaperones. During stress, induction of stress response genes is prioritized so that molecular chaperones and other stress response proteins are synthesized to cope with proteome misfolding and aggregation. In order to promote the selective translation of stress-specific genes, translation of others genes that are nonessential for cell survival has to stop. Nonessential protein-coding mRNAs accumulate in the cytosol with the associated proteins to form granular structures called stress granules (SG). These membrane-less organelles are thought to be involved in cell survival, mRNA stabilization and mRNA triage. They were proposed to form via the liquid-liquid phase separation which can be triggered by the high local concentration of RNA-binding proteins. mRNAs were long thought to simply play a scaffolding role by bringing RNA-binding proteins together and allowing their concentration and local aggregation. Recently, the active role of mRNAs in the SG assembly became apparent, too. For example, the spontaneous assembly of total yeast RNA into granules was observed, and these RNA granules showed a large overlap with SG transcriptome. Furthermore, cytosolic mRNAs can be released from polyribosomes under stress and be exposed to the cytosolic contents as free mRNAs. It has been suggested that this massive increase of free mRNA in the cytosol might overload the capacities of RNA-stabilizing proteins. The remaining free mRNA molecules would then become exposed to misfolded and aggregation-prone proteins and trigger granulation.
We investigated the role of free mRNAs in different stress conditions during the early and chronic phases of stress response and explored their involvement in SGs assembly and amlyoidogenesis. We identified and studied the interactome of a free mRNA probe incubated with heat shocked cell lysate by means of quantitative mass spectrometry. Proteomics analysis allowed us to identify 79 interactors of free mRNA. Among these interactors, we focused on the translation initiation factor eIF2α and on the RNA methyltransferase TRMT6/61A. Both interactions were verified biochemically, which confirmed that the association is enhanced in heat shocked lysate. In vitro reconstitution showed that free mRNA and TRMT6 interact directly. Ex vivo pulldowns revealed that eIF2α and TRMT6/61A interact under stress conditions and that this interaction is RNA-dependent.
TRMT6/61A is a tRNA methytransferase responsible for the methylation of the adenosine 58 at the position 1 producing m1A. However, also mRNAs have been recently found to be methylated by TRMT6/61A. Our bioinformatics analyses revealed that significantly more mRNAs enriched in SG contain the motif for methylation than SG-depleted mRNAs. We hypothesized that m1A methylation of mRNAs could constitute a tag for the mRNAs targeting to SGs. TRMT61A knock-down (KD) cell lines were generated using the CRISPR-Cas9 technique. In TRMT61A KD cells, m1A was significantly reduced on mRNAs, which correlated with an increased sensitivity of the cells to proteostasis stress. KD cells also showed defects in SG assembly. In heat shocked cells, an m1A motif-containing mRNA recovered better after returning to normal temperature than a control mRNA with mutated motif. In addition, we could isolate SGs and analyze their m1A and m6A content by mass spectrometry. While m6A content in SG mRNAs was very similar to cytosolic mRNAs, m1A was almost 8 times enriched in SGs. Thus, we could confirm experimentally the results of the bioinformatics analysis and directly support the hypothesis that m1A is a tag to direct mRNAs for sequestration. Finally, we compared amyloidogenesis in wild-type and TRMT61A KD cell lines. Cells with reduced levels of TRMT61A demonstrated an increased accumulation of transfected Aβ and an impaired aggregate clearance. Various assays led us to conclude that the lack of m1A deposition on mRNAs enhanced RNA co-aggregation with amyloids.
Based on our results, we propose a model explaining the fate of free mRNA during proteostasis stress. Upon polysome disassembly, free mRNA is released and becomes free to interact with other proteins, including the methyltransferase TRMT6/61A. TRMT6/61A methylates the freed mRNAs containing the cognate motif. The m1A tag then targets mRNAs to SGs promoting sequestration. Upon stress release, SGs disassemble, thus releasing rescued mRNAs which could now reenter translation and support cell recovery. On the other hand, non-sequestered mRNAs increasingly co-aggregate with aggregating proteins. Thus, deficiency of the N1-adenine methylation of mRNAs due to the lack of TRMT6/61A increases the amount of unpacked mRNAs. The deposition of m1A on mRNAs could then be a way to protect them during exposure to stress, to limit their co-aggregation with misfolded proteins and to allow a faster recovery upon stress release.
The marginalization of the hijra identity in postcolonial Pakistan perpetuates the inequalities that have dogged the transgender community since the colonial era. Although Pakistan has since ratified all concerned UN treaties aimed at protecting transgender people and preventing human rights violations against them, the country’s gender-variant population nevertheless remains vulnerable to these transgressions. As such, this study aims to explore the following inquiry: “What are the lifeways of the hijra community and how do hijra people face human rights violations in their daily life activities?”
The identity construction of the hijra is a complex process. Pakistan is a patriarchal society that determines gender based on biological sex. While a genitally ambiguous child is generally recognized as intersexed, the family usually obscures this circumstance or tries to enforce a predominantly male identity onto the child. To some degree, an intersexed child is allowed to perform feminine roles, particularly when compared to a biologically male individual who is inclined toward femininity. They may partake in “girls’ games” or in “women’s chores” like cooking; they may opt to don feminine clothing and jewelry or practice walking and talking “like a girl.” Many family members and relatives consider such actions a threat to family honor and/or an indication of weakness, which in turn renders the child vulnerable to sexual or physical assault. Abuse also causes some gender-variant children to drop out of school. As adults, many hijras do not see childhood sexual encounters as assault, particularly because they considered themselves to be feminine even from a young age. Nevertheless, experiences of isolation, abuse, and exclusion often compel a gender-variant child to seek company outside of his/her family of orientation.
Many transgender individuals see redemption in joining the hijra community: there, a new identity is defined and shaped. New members mirror themselves after more senior hijras. In the community, relationships are solidified through similar childhood experiences and interests as well as a shared freedom to express the outer reflection of an “inner feminine soul.” Here, they accept the childhood label affixed to them by heteronormative society: hijra. In fact, the identity now becomes the key to economic viability and socialization.
The predominant livelihood strategies within the hijra community are dancing and prostitution. New members must adhere to stringent norms and rules; they risk (sometimes severe) punishment if they do not. For example, a new hijra must adopt a very strict feminine appearance; if she does not appear feminine enough she may be socially isolated or physically punished. Similarly, a hijra is required to remain passive during sex. In fact, because hijras are stereotyped as passive and vulnerable, many clients physically exploit or even rape them. If she tries to resist, a hijra may face physical violence and, in extreme circumstances, death. Reporting abuse to law enforcement authorities often leads to further exploitation. As such, whether dancing or performing sexually, hijras are encouraged to do whatever is asked of them.
In the last decade, the Supreme Court of Pakistan has taken significant steps to ensure the rights of transgender people. The Court has similarly compelled local governments to amend existing legislation in order to protect the transgender community. Nevertheless, discrepancies exist in legislative and judicial interpretations of the transgender identity, which continues to impede the struggle for basic rights. Indeed, there is a long way to go in the effort to incorporate transgender people into the folds of mainstream Pakistani society.
Multi-view microscopy techniques are used to increase the resolution along the optical axis for 3D imaging. Without this, the resolution is insufficient to resolve subcellular events. In addition, parts of the images of opaque specimens are often highly degraded or masked. Both problems motivate scientists to record the same specimen from multiple directions. The images, then have to be digitally fused into a single high-quality image. Selective-plane illumination microscopy has proven to be a powerful imaging technique due to its unsurpassed acquisition speed and gentle optical sectioning. However, even in the case of multi view imaging techniques that illuminate and image the sample from multiple directions, light scattering inside tissues often severely impairs image contrast.
Here we show that for c-elegans embryos multi view registration can be achieved based on segmented nuclei. However, segmentation of nuclei in high density distribution like c-elegans embryo is challenging. We propose a method which uses 3D Mexican hat filter for preprocessing and 3D Gaussian curvature for the post-processing step to separate nuclei. We used this method successfully on 3 data sets of c-elegans embryos in 3 different views. The result of segmentation outperforms previous methods. Moreover, we provide a simple GUI for manual correction and adjusting the parameters for different data.
We then proposed a method that combines point and voxel registration for an accurate multi view reg- istration of c-elegans embryo, which does not need any special experimental preparation. We demonstrate the performance of our approach on data acquired from fixed embryos of c-elegans worms. This multi step approach is successfully evaluated by comparison to different methods and also by using synthetic data. The proposed method could overcome the typically low resolution along the optical axis and enable stitching to- gether the different parts of the embryo available through the different views. A tool for running the code and analyzing the results is developed.
During my PhD, I was applying the clumped isotope technique to modern brachiopods and fossil belemnites, and I conducted methodological work. Carbonate clumped isotope thermometry is a tool to reconstruct carbonate precipitation temperatures. In contrast to oxygen isotope thermometry, i.e., the δ18O-thermometer, the carbonate clumped isotope thermometer does not require an estimate for the oxygen isotope composition of the seawater, as it considers the fractionation of isotopes exclusively amongst carbonate isotopologues. The ∆47 value of a carbonate expresses the abundance of the 13C–18O bond bearing carbonate isotopologue, within the carbonate, relative to its random distribution. In thermodynamic equilibrium, the ∆47 value of a given carbonate is solely a function of the carbonate precipitation temperature. However, kinetic isotope fractionations, i.e., vital effects, driven by diffusion, pH or incomplete oxygen isotope exchange between water and dissolved inorganic carbonate species can cause the carbonate to be precipitated with isotopic compositions that are offset from those predicted for thermodynamic equilibrium.
Brachiopods serve as important geochemical archives of past climate conditions. To investigate the nature and significance of kinetic controls on brachiopod shell δ18O and ∆47 values, in collaboration with the BASE-LiNE Earth ITN, I analysed the bulk and clumped isotope compositions of eighteen modern brachiopod shells, collected from different geographic locations and water depths that cover a substantial range of growth temperatures. Growth temperatures and seawater δ18O values for each brachiopod were independently determined. Most of the analysed brachiopods exhibit combined offsets from clumped and oxygen isotope equilibrium, and there is a significant negative correlation between the offset values. The observed correlation slope between offset ∆47 and offset δ18O point to the importance of kinetic effects associated with Knudsen diffusion and incomplete hydration and hydroxylation of CO2 (aq), occurring during biomineralisation. The correlations between the growth rates of the analysed brachiopods and both the offset ∆47 and the offset δ18O values provide further arguments for the presence of kinetic effects. In conclusion, the oxygen and clumped isotope composition of modern brachiopod shells are affected by growth rate-induced kinetic effects that hinder their use for palaeoceanography.
This dissertation deals with the lexical, morphological, syntactic, and semantic properties of (VP )idioms and their behavior in combination with restrictive relative clauses, raising, constituent fronting, wh-movement, VP-ellipsis, pronominalization, the progressive form, verb placement, passivization, conjunction modification, and the N-after-N construction. It provides empirical evidence towards a combinatorial analysis of both semantically non-decomposable idioms (SNDIs) and semantically decomposable idioms (SDIs) and contributes to the (formal) formulation of such an account.
The Introduction (Chapter 1) first motivates why idioms are an exciting and challenging phenomenon and then gives a definition of the term idiom, a classification of idioms, and an overview of the wide spectrum of idiom analyses found in the linguistic literature.
Chapter 2, “Idioms as evidence for the proper analysis of relative clauses”, shows that the Modification Analysis beats the other two major analyses of restrictive relative clauses (RRCs), namely Raising and Matching, as (i) the latter two lead to a loss of numerous empirical generalizations in syntax and morphology, and (ii) contrary to the assumption in the literature, idioms in RRCs can, in fact, be licensed without literal syntactic movement of the RRC-head, which makes modification fully compatible with idiom reconstruction effects.
Chapter 3, “How frozen are frozen idioms?”, presents new empirical observations on the lexical, morphological, and syntactic flexibility of kick the bucket and displays that this idiom is not completely frozen with respect to its NP complement, the progressive form, and, in some contexts, even passivization. The chapter concludes that analyses of kick the bucket as a single lexical entry should be replaced by analyses of this and other SNDIs with a syntactically regular shape as consisting of individual word-level lexical entries that combine according to the standard rules of syntax.
This idea is taken up in Chapter 4, “The syntactic flexibility of semantically non-decomposable idioms”, which – based on the differences between English and German with regard to verb placement, constituent fronting, and passivization as well as a short outlook on Estonian and French – spells out a combinatorial analysis of SNDIs and augments it with a semantic analysis formulated in Lexical Resource Semantics, according to which some idiom parts make identical semantic contributions to the overall meaning of the idiom. The analysis further suggests that the syntactic flexibility of idioms is due to the semantic and pragmatic constraints on the involved constructions, rather than the syntactic encoding of the idioms.
Chapter 5, “Modification of literal meanings in semantically non-decomposable idioms”, reviews Ernst’s (1981) classical three types of idiom modification (internal, external, and conjunction) to then closely investigate the most challenging type, namely conjunction modification, in SNDIs. Based on naturally occurring examples of four SNDIs (two English, two German), it sketches an analysis in terms of two or more conjoined independent propositions, each of which can be the result of figurative reinterpretation. One of the propositions contains the idiomatic meaning, in (one of) the other(s), the meaning of the modifier applies to the literal meaning of the idiom’s noun.
Chapter 6, “Semantically decomposable idioms in the N-after-N construction”, offers a formal syntactic and semantic account of SDIs like pull strings in the N-after-N construction, as in Kim pulled string after string to get Alex into a good college. While the idiom contributes the type of entity at stake (‘string’ in the case of pull strings), N-after-N contributes that there are several instantiations of that type of entity and that these are subject to temporal or spatial succession. The chapter first summarizes the empirical properties of N-after-N, then provides an account of N-after-N in Head-driven Phrase Structure Grammar (HPSG), presents an updated version of the account of SDIs suggested in Chapter 2 within HPSG, and combines it with the HPSG account of N-after-N.
Transport mechanism of a multidrug resistance protein investigated by pulsed EPR spectroscopy
(2019)
In human several diseases result from malfunctions of ATP-binding cassette (ABC) systems, which form one of the largest transport system superfamily. Many ABC exporters contain asymmetric nucleotide-binding sites (NBSs) and some of them are inhibited by the transported substrate.1 For the active transport of diverse chemically substrates across biological membranes, ABC transport complexes use the energy of ATP binding and subsequent hydrolysis. In this thesis, the heterodimeric ABC exporter TmrAB2,3 from Thermus thermophilus, a functional homolog of the human antigen translocation complex TAP, was investigated by using pulsed electron-electron double resonance (PELDOR/DEER) spectroscopy. In the presence of ATP, TmrAB exists in an equilibrium between inward- and outward-facing conformations. This equilibrium can be modulated by changing the ATP concentration, showing asymmetric behaviour in the open-to-close equilibrium between the consensus and the degenerate NBSs. At the degenerate NBS the closed conformation is more preferred and closure of one of the NBSs is sufficient to open the periplasmic gate at the transmembrane domain (TMD).3 By determining the temperature dependence of this conformational equilibrium, the thermodynamics of the energy coupling during ATP-induced conformational changes in TmrAB were investigated. The results demonstrate that ATP-binding alone drives the global conformational switching to the outward-facing state and allows the determination of the entropy and enthalpy changes for this step. With this knowledge, the Gibbs free energy of this ATP induced transition was calculated. Furthermore, an excess of substrate, meaning trans-inhibition of the transporter is resulting mechanistically in a reverse transition from the outward-facing state to an occluded conformation predominantly.3 This work unravels the central role of the reversible conformational equilibrium in the function and regulation of an ABC exporter. For the first time it is shown that the conformational thermodynamics of a large membrane protein complex can be investigated. The presented experiments give new possibilities to investigate other related medically important transporters with asymmetric NBSs or other similar protein complexes.
Food allergies are defined as an adverse health effect arising from a specific immune response that occurs reproducibly on exposure to a given food. The prevalence of food allergies has increased in the past decade. Epidemiologic studies involving controlled food challenges for the diagnosis of food allergies indicated that between 1 % to 10.8 % of the population have immunemediated non-toxic food hypersensitivity.
Despite the increasing prevalence, no curative treatment has been established for food allergies so far except the complete avoidance of the elicited food. To establish safe and effective immunotherapy for food allergies, it is of crucially importance to elucidate pathological mechanism of such diseases.
Food allergies are classified into IgE-mediated and non-IgE mediated (T-cell mediated) allergies, depending on the immunologic pathways and the role of the IgE on the pathogenesis of the disease. Allergic enteritis (AE) is a gastrointestinal form of food allergy. It is classified as non-IgE-mediated food allergy. However, patients with AE often develop IgE and high levels of IgE have been associated with development of persistent AE. The gastrointestinal symptoms of AE are nonspecific, resulting in the fact that a broad differential diagnoses including diagnostic approaches for allergic diseases are necessary to rule out other gastrointestinal pathologies. Biopsies of patients with allergic enteritis have shown infiltration of inflammatory cells (e.g. mast cells, eosinophils, neutrophils, and T cells) in the lamina propria, disruption of intestinal villi, edema, and presence of goblet cells in the intestine...
Rhabdomyosarcoma (RMS) is the most frequent pediatric soft-tissue sarcoma comprising two major subtypes – the alveolar and the embryonal rhabdomyosarcoma. The current therapeutic regime is multimodal including surgery, radiation and chemotherapy with cytostatic drugs. Although the prognosis for RMS patients has steadily improved to a 5-year overall survival rate of 70% for ERMS and 50% for ARMS, prognosis for subgroups with primary metastases or relapsed patients is still less than 25%, highlighting the need for development of new therapies for these subgroups. Since cancer cells are addicted to their cancer promoting transcriptional program, remodeling transcription by targeting bromodomain and extraterminal (BET) proteins has emerged as compelling anticancer strategy. However, in many cancer types BET inhibition was proved cytostatic but not cytotoxic emphasizing the need for combination protocols.
In this study we identify a novel synergistic interaction of the BET inhibitor JQ1 with p110α-isoform-specific Phosphoinositid-3-Kinase (PI3K) inhibitor BYL719 (Alpelisib) to induce mitochondrial apoptosis and global reallocation of BRD4 to chromatin. At first, we showed that JQ1 single treatment had cytostatic effects at nanomolar concentrations and inhibited MYC and Hedgehog (Hh) signaling in RMS known to promote proliferation of RMS. However, JQ1 single treatment barely induced cell death in RMS cells even at concentrations of up to 20 µM (< 20% cell death). Thus, we next tested combination approaches to elicit cell death. Since we previously identified synergistic cell death induction of Hh inhibition and PI3K inhibition in RMS cells we tested JQ1 in combination with the pan-PI3K/mTOR inhibitor PI-103 and the p110α-isoform-specific PI3K inhibitor BYL719. In addition, we tested JQ1 in combination with distinct HDAC inhibitors namely JNJ-26481585, SAHA (Vorinostat), MS-275 (Entinostat) and LBH-589 (Panobinostat) since the synergistic interaction of BET and HDAC inhibition has previously been described for other tumor entities.
Interestingly the synergism of cell death induction of JQ1/BYL719 co-treatment is superior to the synergism of JQ1 with pan-PI3K/mTOR inhibitor PI-103 or the tested HDAC inhibitors as confirmed by calculation of combination index. To investigate the molecular mechanisms underlying the synergy of JQ1/BYL719 co-treatment, we performed RNA-Seq and BRD4 ChIP-Seq experiments. RNA-Seq exhibited, that JQ1/BYL719 co-treatment shifted the overall balance of BCL-2 family gene expression towards apoptosis and increased gene expression of proapoptotic BMF, BCL2L11 (BIM) and PMAIP1 (NOXA) while decreasing gene expression of antiapoptotic BCL2L1 (BCL xL). These changes were verified by qRT-PCR and Western blot. Notably, BRD4 is phosphorylated upon JQ1/BYL719 co-treatment and globally reallocates BRD4 to chromatin. This BRD4 reallocation includes enrichment of BRD4 at the super-enhancer site of BMF, at the super-enhancer, typical enhancer and promoter regions of BCL2L11 (BIM) and at the PMAIP1 (NOXA) promoter, while JQ1 alone, as expected, reduces global chromatin binding of BRD4. Integration of RNA-Seq and BRD4 ChIP-Seq data underlines the transcriptional relevance of reallocated BRD4 upon JQ1/BYL719 co-treatment. Immunopreciptation studies showed, that RMS cells are initially primed to undergo mitochondrial apoptosis since BIM is constitutively bound to antiapoptotic BCL-2, BCL xL and MCL-1. JQ1/BYL719 co-treatment increased BIM expression and its neutralization of antiapoptotic BCL-2, BCL-xL and MCL-1 thereby rebalancing the ratio of pro- and antiapoptotic BCL-2 proteins in favor of apoptosis. This promotes activation of BAK and BAX resulting in caspase-dependent apoptosis. The functional relevance of proapoptotic re-balancing for the execution of JQ1/BYL719-mediated apoptosis was confirmed by individual silencing of BMF, BIM, NOXA or overexpression of BCL-2 or MCL-1, which all significantly rescued JQ1/BYL719-induced cell death. Execution of cell death by mitochondrial caspase-dependent apoptosis was veryfied by individual knockdown of BAK and BAX or caspase inhibitor N-Benzyloxycarbonyl-Val-Ala-Asp(O-Me) fluoromethylketone (zVAD.fmk), which all significantly rescued JQ1/BYL719-induced cell death.
In summary, combined BET and PI3Kα inhibition cooperatively induces mitochondrial apoptosis by proapoptotic re-balancing of BCL-2 family proteins accompanied by reallocation of BRD4 to transcriptional regulatory elements of BH3-only proteins.