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Rearrangements des MLL Gens sind für 5-10% aller akuten Leukämien, biphenotypischen Leukämien und myelodysplastischen Syndrome im Kindes- und Erwachsenenalter verantwortlich. 5-10% dieser MLL Aberrationen sind wiederum therapiebedingt.
Die 43 heute schon bekannten Partnergene und die mindestens 36 noch nicht identifizierten Partnergene stellen dabei ein großes Problem für die MLL-Diagnostik dar, denn nach der zytogenetischen Analyse werden nur die am häufigsten auftretenden Partnergene MLLT2, MLLT3, MLLT1, MLLT4, ELL, und MLLT10 über RT-PCR untersucht. Dagegen werden die nicht so häufig auftretenden oder unbekannten Partnergene von einer weiteren Untersuchung ausgeschlossen.
Wenn auch alle MLL Translokationen mit einer Hochrisiko-Leukämie in Verbindung gebracht werden, bestimmt jedoch das Partnergen den Verlauf der Leukämie mit günstiger oder schlechter Prognose. Deshalb ist eine schnelle Identifizierung des Partnergens wichtig, um somit einer optimalen Behandlung beginnen zu können.
Aus diesem Grund ist eine universelle Diagnostik-Methode entwickelt worden, die es ermöglicht, alle MLL Rearrangements innerhalb der MLL Bruchpunktsregion zu ermitteln, auch wenn das Partnergen noch nicht bekannt ist. Diese Methode beruht auf der inversen Long Range PCR (LDI-PCR), einer Methode zur Amplifizierung von unbekannten DNA Sequenzen (Partnergen), die von bekannten DNA Sequenzen (MLL Gen) flankiert werden.
Mit dieser universellen Diagnostik-Methode konnten 340 Patienten aus 15 unterschiedlichen europäischen Diagnostikzentren erfolgreich untersucht werden. Die 340 Patienten setzen sich aus 238 Kindern und 102 Erwachsenen zusammen. Bei 157 Patienten (66 Kinder und 91 Erwachsene) konnte über eine Voruntersuchung ein MLL Rearrangement festgestellt werde. 183 Patienten (172 Kinder und 11 Erwachsene) sind vorher nicht auf eine MLL Aberration hin untersucht worden. Insgesamt konnten mit dieser Methode 144 Patienten mit mindestens einem MLL Rearrangement identifiziert werden. Bei diesen Rearrangements handelte es sich in den meisten Fällen um reziproke balancierte Translokationen, aber es konnten mit dieser Methode auch Deletionen, Inversionen, Insertionen und eine Tandem-Duplikation (MLL-PTD) identifiziert werden. Von den 172 vorher nicht untersuchten pädiatrischen Patienten konnten 11 (ca. 6%) mit einer MLL Aberration identifiziert werden. Dies entspricht in etwa der in der Literatur beschriebenen Häufigkeit von 10%. 12 (8%) der schon voruntersuchten Patienten konnten mit dieser Methode nicht verifiziert werden. Diese Fälle sollten weiter untersucht werden, um die Methode dieser Problematik entsprechend zu optimieren.
Während dieser Arbeit konnten auch die 6 neuen Partnergene ACACA, ARHGEF17, SMAP1, SELB und TIRAP (DCPS) identifiziert werden. Damit steigt die Zahl der charakterisierten Partnergene von 43 auf 49.
Diese Ergebnisse zeigen, dass sich diese Methode sehr gut für die Identifizierung von bekannten und unbekannten Partnergenen des MLL Gens eignet. In Verbindung mit der Split-Signal FISH Technik kann diese Methode sehr gut für eine Routinediagnostik und einen hohen Durchsatz an Proben herangezogen werden. Ein langfristiges Ziel wird die Analyse des MLL Rekombinoms sein, denn mindestens 36 Partnergene (40%) warten noch auf ihre Identifizierung.
Darüber hinaus können die patientenspezifischen chromosomalen Fusionssequenzen für das Monitoren von leukämischen Zellen über quantitative PCR Methoden herangezogen werden. Diese genomischen MRD Marker können dann in den einzelnen Zentren genutzt werden und dazu beitragen, dass in Zukunft die Therapieprotokolle und der Therapieerfolg verbessert werden. Erste Studien sind mit Hilfe der von uns generierten molekularen Marker bereits an zwei Zentren durchgeführt worden.
Background While there is enough convincing evidence in childhood acute lymphoblastic leukemia (ALL), the data on the pre-natal origin in childhood acute myeloid leukemia (AML) are less comprehensive. Our study aimed to screen Guthrie cards (neonatal blood spots) of non-infant childhood AML and ALL patients for the presence of their respective leukemic markers. Methods We analysed Guthrie cards of 12 ALL patients aged 2–6 years using immunoglobulin (Ig) and T-cell receptor (TCR) gene rearrangements (n = 15) and/or intronic breakpoints of TEL/AML1 fusion gene (n = 3). In AML patients (n = 13, age 1–14 years) PML/RARalpha (n = 4), CBFbeta/MYH11 (n = 3), AML1/ETO (n = 2), MLL/AF6 (n = 1), MLL/AF9 (n = 1) and MLL/AF10 (n = 1) fusion genes and/or internal tandem duplication of FLT3 gene (FLT3/ITD) (n = 2) were used as clonotypic markers. Assay sensitivity determined using serial dilutions of patient DNA into the DNA of a healthy donor allowed us to detect the pre-leukemic clone in Guthrie card providing 1–3 positive cells were present in the neonatal blood spot. Results In 3 patients with ALL (25%) we reproducibly detected their leukemic markers (Ig/TCR n = 2; TEL/AML1 n = 1) in the Guthrie card. We did not find patient-specific molecular markers in any patient with AML. Conclusion In the largest cohort examined so far we used identical approach for the backtracking of non-infant childhood ALL and AML. Our data suggest that either the prenatal origin of AML is less frequent or the load of pre-leukemic cells is significantly lower at birth in AML compared to ALL cases.
The use of chemically synthesized short interfering RNAs (siRNAs) is currently the method of choice to manipulate gene expression in mammalian cell culture, yet improvements of siRNA design is expectably required for successful application in vivo. Several studies have aimed at improving siRNA performance through the introduction of chemical modifications but a direct comparison of these results is difficult. We have directly compared the effect of 21 types of chemical modifications on siRNA activity and toxicity in a total of 2160 siRNA duplexes. We demonstrate that siRNA activity is primarily enhanced by favouring the incorporation of the intended antisense strand during RNA-induced silencing complex (RISC) loading by modulation of siRNA thermodynamic asymmetry and engineering of siRNA 3-overhangs. Collectively, our results provide unique insights into the tolerance for chemical modifications and provide a simple guide to successful chemical modification of siRNAs with improved activity, stability and low toxicity.
Background Translocations of the Mixed Lineage Leukemia (MLL) gene occur in a subset (5%) of acute myeloid leukemias (AML), and in mixed phenotype acute leukemias in infancy - a disease with extremely poor prognosis. Animal model systems show that MLL gain of function mutations may contribute to leukemogenesis. Wild-type (wt) MLL possesses histone methyltransferase activity and functions at the level of chromatin organization by affecting the expression of specific target genes. While numerous MLL fusion proteins exert a diverse array of functions, they ultimately serve to induce transcription of specific genes. Hence, acute lymphoblastic leukemias (ALL) with MLL mutations (MLLmu) exhibit characteristic gene expression profiles including high-level expression of HOXA cluster genes. Here, we aimed to relate MLL mutational status and tumor suppressor gene (TSG) methylation/expression in acute leukemia cell lines. Results Using MS-MLPA (methylation-specific multiplex ligation-dependent probe amplification assay), methylation of 24 different TSG was analyzed in 28 MLLmu and MLLwt acute leukemia cell lines. On average, 1.8/24 TSG were methylated in MLLmu AML cells, while 6.2/24 TSG were methylated in MLLwt AML cells. Hypomethylation and expression of the TSG BEX2, IGSF4 and TIMP3 turned out to be characteristic of MLLmu AML cell lines. MLLwt AML cell lines displayed hypermethylated TSG promoters resulting in transcriptional silencing. Demethylating agents and inhibitors of histone deacetylases restored expression of BEX2, IGSF4 and TIMP3, confirming epigenetic silencing of these genes in MLLwt cells. The positive correlation between MLL translocation, TSG hypomethylation and expression suggested that MLL fusion proteins were responsible for dysregulation of TSG expression in MLLmu cells. This concept was supported by our observation that Bex2 mRNA levels in MLL-ENL transgenic mouse cell lines required expression of the MLL fusion gene. Conclusion These results suggest that the conspicuous expression of the TSG BEX2, IGSF4 and TIMP3 in MLLmu AML cell lines is the consequence of altered epigenetic properties of MLL fusion proteins.
Background: Abnormalities of 11q23 involving the MLL gene are found in approximately 10% of human leukemias. To date, nearly 100 different chromosome bands have been described in rearrangements involving 11q23 and 64 fusion genes have been cloned and characterized at the molecular level. In this work we present the identification of a novel MLL fusion partner in a pediatric patient with de novo biphenotypic acute leukemia. Methods: Cytogenetics, fluorescence in situ hybridization (FISH), molecular studies (RT-PCR and LDI-PCR), and bioinformatic sequence analysis were used to characterize the CT45A2 gene as novel MLL fusion partner in pediatric acute leukemia. Results: Fluorescence in situ hybridization of the patient G-banded metaphases demonstrated a cryptic insertion of 11q23 in Xq26.3 involving the MLL gene. Breakpoint fusion analysis revealed that a DNA fragment of 653 kb from 11q23, containing MLL exons 1-9 in addition to 16 other 11q23 genes, was inserted into the upstream region of the CT45A2 gene located at Xq26.3. In addition, a deletion at Xq26.3 encompassing the 3' region of the DDX26B gene (exons 9-16) and the entire CT45A1 gene was identified. RNA analysis revealed the presence of a novel MLL-CT45A2 fusion transcript in which the first 9 exons of the MLL gene were fused in-frame to exon 2 of the CT45A2 gene, resulting in a spliced MLL fusion transcript with an intact open reading frame. The resulting chimeric transcript predicts a fusion protein where the N-terminus of MLL is fused to the entire open reading frame of CT45A2. Finally, we demonstrate that all breakpoint regions are rich in long repetitive motifs, namely LINE/L1 and SINE/Alu sequences, but all breakpoints were exclusively identified outside these repetitive DNA sequences. Conclusion: We have identified CT45A2 as a novel spliced MLL fusion partner in a pediatric patient with de novo biphenotypic acute leukemia, as a result of a cryptic insertion of 11q23 in Xq26.3. Since CT45A2 is the first Cancer/Testis antigen family gene found fused with MLL in acute leukemia, future studies addressing its biologic relevance for leukemogenesis are warranted.
TO THE EDITOR: We read an interesting paper by Palta et al. in a recent issue of the Korean Journal of Hematology titled, "ZBTB16-RARA variant of acute promyelocytic leukemia with tuberculosis: a case report and review of literature" [1]. We would like to add some comments to their article and suggest additional molecular methods to confirm variant translocations in acute promyelocytic leukemia (APL)....
This report describes the clinical courses of two acute myeloid leukemia patients. Both had MLL translocations, the first a t(10;11)(p11.2;q23) with MLL-AF10 and the second a t(11;19)(q23;p13.1) with MLL-ELL fusion. They achieved a clinical remission under conventional chemotherapy but relapsed shortly after end of therapy. Both had a history of invasive mycoses (one had possible pulmonary mycosis, one systemic candidiasis). Because no HLA-identical donor was available, a haploidentical transplantation was performed in both cases. Using a specially designed PCR method for the assessment of minimal residual disease (MRD), based on the quantitative detection of the individual chromosomal breakpoint in the MLL gene, all patients achieved complete and persistent molecular remission after transplantation. The immune reconstitution after transplantation is described in terms of total CD3+/CD4+, CD3+/CD8+, CD19+, and CD16+/CD56+ cell numbers over time. The KIR and HLA genotypes of donors and recipients are reported and the possibility of a KIR-mediated alloreactivity is discussed. This report illustrates that haploidentical transplantation may offer a chance of cure without chronic graft-versus-host disease in situations where no suitable HLA-identical donor is available even in a high-risk setting and shows the value of MRD monitoring in the pre- and posttransplant setting.
Chromosomal rearrangements of the human MLL (mixed lineage leukemia) gene are associated with high-risk infant, pediatric, adult and therapy-induced acute leukemias. We used long-distance inverse-polymerase chain reaction to characterize the chromosomal rearrangement of individual acute leukemia patients. We present data of the molecular characterization of 1590 MLL-rearranged biopsy samples obtained from acute leukemia patients. The precise localization of genomic breakpoints within the MLL gene and the involved translocation partner genes (TPGs) were determined and novel TPGs identified. All patients were classified according to their gender (852 females and 745 males), age at diagnosis (558 infant, 416 pediatric and 616 adult leukemia patients) and other clinical criteria. Combined data of our study and recently published data revealed a total of 121 different MLL rearrangements, of which 79 TPGs are now characterized at the molecular level. However, only seven rearrangements seem to be predominantly associated with illegitimate recombinations of the MLL gene (~ 90%): AFF1/AF4, MLLT3/AF9, MLLT1/ENL, MLLT10/AF10, ELL, partial tandem duplications (MLL PTDs) and MLLT4/AF6, respectively. The MLL breakpoint distributions for all clinical relevant subtypes (gender, disease type, age at diagnosis, reciprocal, complex and therapy-induced translocations) are presented. Finally, we present the extending network of reciprocal MLL fusions deriving from complex rearrangements.
Background: Acute leukemia in early age (EAL) is characterized by acquired genetic alterations such as MLL rearrangements (MLL-r). The aim of this case-controlled study was to investigate whether single nucleotide polymorphisms (SNPs) of IKZF1, ARID5B, and CEBPE could be related to the onset of EAL cases (<24 months-old at diagnosis).
Methods: The SNPs (IKZF1 rs11978267, ARID5B rs10821936 and rs10994982, CEBPE rs2239633) were genotyped in 265 cases [169 acute lymphoblastic leukemia (ALL) and 96 acute myeloid leukaemia (AML)] and 505 controls by Taqman allelic discrimination assay. Logistic regression was used to evaluate the association between SNPs of cases and controls, adjusted on skin color and/or age. The risk was determined by calculating odds ratios (ORs) with 95% confidence interval (CI).
Results: Children with the IKZF1 SNP had an increased risk of developing MLL-germline ALL in white children. The heterozygous/mutant genotype in ARID5B rs10994982 significantly increased the risk for MLL-germline leukemia in white and non-white children (OR 2.60, 95% CI: 1.09-6.18 and OR 3.55, 95% CI: 1.57-8.68, respectively). The heterozygous genotype in ARID5B rs10821936 increased the risk for MLL-r leukemia in both white and non-white (OR 2.06, 95% CI: 1.12-3.79 and OR 2.36, 95% CI: 1.09-5.10, respectively). Furthermore, ARID5B rs10821936 conferred increased risk for MLL-MLLT3 positive cases (OR 7.10, 95% CI:1.54-32.68). Our data do not show evidence that CEBPE rs2239633 confers increased genetic susceptibility to EAL.
Conclusions: IKZF1 and CEBPE variants seem to play a minor role in genetic susceptibility to EAL, while ARID5B rs10821936 increased the risk of MLL-MLLT3. This result shows that genetic susceptibility could be associated with the differences regarding MLL breakpoints and partner genes.
Цель: Оценить влияние локализации точки разрыва в геномной ДНК гена MLL на прогноз острых лейкозов (ОЛ) у детей первого года жизни.
Методы: В исследование было включено 68 детей первого года жизни (29 мальчиков и 39 девочек с медианой возраста 4,8 мес.) с MLL-позитивными острым лимфобластным лейкозом (ОЛЛ) (n = 46), острым миелоидным лейкозом (ОМЛ) (n = 20) и ОЛ смешанной линейности (n = 2).
Результаты: 5-летняя бессобытийная выживаемость (БСВ) детей первого года жизни с ОЛЛ, включенных в исследование MLL-Baby, с точкой разрыва в интроне 11 ДНК гена MLL (n = 29) была статистически значимо ниже, чем у пациентов c локализацией точек разрыва, начиная с интрона 7 по экзон 11 (n = 17; 0,16 ± 0,07 и 0,38 ± 0,14; p = 0,039), а кумулятивная вероятность развития рецидива была значительно выше в группе с точкой разрыва в интроне 11 (0,74 ± 0,09 и 0,52 ± 0,17; p = 0,045). В то же время многофакторный анализ показал, что единственным значимым фактором, связанным с неблагоприятным прогнозом, остается сохранение минимальной остаточной болезни (МОБ) в точке наблюдения 4 протокола MLL-Baby (отношение опасности 5,994; 95%-й доверительный интервал 2,209–16,263; p < 0,001). У 22 пациентов с ОМЛ связи между прогнозом и локализацией точки разрыва в ДНК гена MLL не выявлено.
Заключение: Наличие точки разрыва в интроне 11 гена MLL у детей первого года жизни с ОЛЛ, получавших лечение по протоколу MLL-Baby, вело к статистически значимо более низким показателям БСВ и более высокой кумулятивной вероятности развития рецидива. Однако в многофакторной модели риска это нивелировалось сохранением МОБ в точке наблюдения 4. У детей первого года жизни с ОМЛ взаимосвязи между локализацией точки разрыва в ДНК гена MLL и прогнозом не выявлено.