O cromossomo X e a deficiência mental no sexo masculino / The X chromossome and mental retardation on males

Karen Nogueira Coqueti

20 June 2011

Este trabalho teve o objetivo de estimar a frequência de deficiência mental causada por mutações no cromossomo X entre pacientes do sexo masculino, que constituem casos isolados de deficiência mental. A estratégia adotada foi a determinação do padrão de inativação do cromossomo X nas mães dos afetados, com base (a) nas indicações de que desvios extremos do padrão casual de inativação do cromossomo X têm alta probabilidade de estar relacionados à presença de mutações do cromossomo X e (b) na observação de que a frequência desses desvios está significantemente aumentada em mulheres certamente portadoras de mutações que causam deficiência mental de herança ligada ao X. A vantagem seletiva das células que possuem o alelo não mutado no cromossomo X ativo é uma explicação para tais desvios extremos da inativação do cromossomo X, raramente encontrados na população geral. Selecionamos 115 meninos portadores de deficiência mental moderada a grave associada a outros sinais clínicos, não característicos de síndrome conhecida e que tinham cariótipos normais e teste negativo para a síndrome do cromossomo X frágil; suas genitoras concordaram com a participação no estudo. Esses pacientes foram encaminhados ao Serviço de Aconselhamento Genético do Laboratório de Genética Humana, Departamento de Genética e Biologia Evolutiva, por diferentes serviços médicos, para diagnóstico e orientação quanto a riscos de recorrência na família. O padrão de inativação do cromossomo X nas mães dos afetados foi investigado, com base na metilação diferencial dos alelos do gene AR (Androgen Receptor gene) , no cromossomo X ativo e inativo. As mães de 100 desses meninos se revelaram heterozigóticas quanto à repetição polimórfica CAG do gene AR, requisito do teste para determinar o padrão de inativação do cromossomo X. Onze mulheres (11%) apresentaram desvios extremos do padrão de inativação do X (≥ 98:2), frequência significativamente maior (P = 0.0001; teste exato de Fisher) do que aquela que a literatura registra, em estudo utilizando o mesmo ensaio, entre mulheres adultas da população geral (0,017; IC 95% = 0,007 0,034). A raridade de desvios tão extremos na população geral permite admitir que as mães dos afetados que apresentam tais desvios sejam portadoras de mutação no cromossomo X, que causa a deficiência mental em seus filhos. Sendo assim, estimamos em 11% a frequência de deficiência mental em nossa amostra de 100 meninos casos isolados de deficiência mental (IC 95% = 0,056 0,188), sem incluir a síndrome do X frágil, responsável por 2,5% a 3% da deficiência mental no sexo masculino. Essa nossa estimativa para a proporção de deficiência mental moderada grave ligada ao X entre indivíduos do sexo masculino com DM é da mesma ordem de grandeza daquelas relatadas na literatura, baseadas (a) na frequência da síndrome do X frágil em coortes de homens com deficiência mental e entre famílias com deficiência mental de herança ligada ao X ou (b) nas inferências da prevalência de deficiência mental e de deficiência mental causada por mutações no cromossomo X na população geral masculina. Entretanto, a frequência por nós determinada deve ser uma subestimativa, considerando que os desvios extremos do padrão de inativação ocorrem em apenas um terço das portadoras obrigatórias de mutações que causam deficiência mental com herança ligada ao X. Com base nos resultados deste estudo, consideramos indicada a avaliação do padrão de inativação do cromossomo X em mães de indivíduos do sexo masculino, casos isolados de deficiência mental. A detecção de desvio extremo da inativação deve ser considerada indicativa de deficiência mental de herança ligada ao X, constituindo subsídio para o aconselhamento genético da família e podendo levar á identificação da mutação causadora da deficiência mental. / Nearly a third of obligate carriers of mutations causative of X-linked mental retardation (XLMR) have been reported to have extreme X-inactivation skewing in peripheral blood cells, compared to their non-carrier relatives. Selective advantage of cells with the non-mutated allele on the active X chromosome would explain this skewing. Based on these findings, we used the pattern of X-inactivation in mothers of mentally retarded boys, as a parameter to evaluate the frequency of XLMR among non-familial cases. To determine the X-inactivation pattern in these women, we investigated the methylation status of the AR (Androgen Receptor) alleles in blood cells. We selected 115 boys with moderate to severe mental retardation of unknown cause, who had normal karyotypes and tested negative for fragile X syndrome; the mothers of 100 of these boys were found to be heterozygous for the polymorphic CAG repeat of the AR gene, a requisite of the X-inactivation assay. Eleven women (11%) had extremely skewed X-inactivation (≥ 98:2), a frequency significantly higher (P = 0.0001; Fisher exact test) than the frequency reported for adult women from the general population (1.7%; 95% CI = 0.007 0,034). Assuming that every mother with extremely skewed X-inactivation is a carrier of an X-chromosome mutation that causes mental retardation in her son, the frequency of XLMR in our sample of 100 boys is 11% (95% CI = 0,056 0,188), the fragile X syndrome being excluded. Although these figures are quite in agreement with previous estimations of the frequency of XLMR among mentally retarded men, they might be an underestimation, when it is taken into account that only about a third of obligate carriers of XLMR mutations have highly skewed X inactivation.

Deficiência mental

Herança ligada ao cromossomo X

Inativação do cromossomo X

Mental retardation

X-chromossome inactivation

X-linked inheritance

Deciphering the functional and molecular differences between MTM1 and MTMR2 to better understand two neuromuscular diseases / Etude des différences moléculaires et fonctionnelles entre MTM1 et MTMR2 afin de mieux comprendre deux maladies neuromusculaires

Raess, Matthieu

13 October 2017

MTM1 et MTMR2 sont 2 phosphatases de phosphoinositides appartenant à la famille des myotubularines, conservée pendant l’évolution. Bien qu’étant très similaires, des mutations dans MTM1 entraînent la sévère myopathie XLCNM alors que les mutations dans MTMR2 entraînent la neuropathie CMT4B. On ne comprend pas encore les bases moléculaires de cette spécificité de tissu, et il n’existe aucun traitement spécifique pour ces maladies. J’ai tout d’abord caractérisé l’activité des 2 isoformes endogènes de MTMR2, nommés MTMR2-L et MTMR2-S. J’ai démontré que la différence fonctionnelle entre MTM1 et MTMR2 s’explique principalement par l’extension N-terminale de MTMR2, et que l’isoforme MTMR2-S dépourvu de cette extension entraîne les mêmes phénotypes que MTM1. Ensuite, grâce à l’injection d’AAV dans les souris Mtm1 KO, j’ai démontré que l’expression exogène des isoformes de MTMR2, et surtout de MTMR2-S, améliore grandement l’atrophie musculaire, la force musculaire et les marqueurs histologiques de ces souris myopathiques. Ces résultats révèlent une première base moléculaire expliquant les spécificités fonctionnelles de MTM1 et MTMR2, et montrent que MTMR2 est une cible thérapeutique potentielle pour la myopathie XLCNM. / MTM1 and MTMR2 are 2 phosphatases of phosphoinositides that belong to the myotubularin family conserved through evolution. Despite their high level of similarity, mutations in MTM1 lead to the severe XLCNM myopathy while mutations in MTMR2 lead to the CMT4B neuropathy. The molecular bases for the surprising tissue-specific functions of these ubiquitously expressed proteins was unclear. Moreover, there is no specific therapy for these diseases.I first characterized the activity of the two naturally occurring isoforms of MTMR2, that we named MTMR2-L (long) and MTMR2-S (short). I found that the functional differences between MTM1 and MTMR2 reside mostly in the N-terminal extension of MTMR2-L, and that the endogenous MTMR2-S isoform lacking this N-terminal extension behaves similarly as MTM1. Then, using the myopathic Mtm1 KO mouse and AAV-mediated expression, I showed that exogenous expression of MTMR2 isoforms, and specifically of MTMR2-S, strongly improved the muscle atrophy, muscle force and the histological hallmarks of the myopathic mice. These data reveal a first molecular basis for the functional specificities of MTM1 and MTMR2, and highlight MTMR2 as a therapeutic target for XLCNM myopathy.

Myotubularine

Phosphoinositides

Thérapie génique

X-linked centronuclear myopathy

Myotubularin

Phosphoinositides

Gene therapy

572.8

616.74

Regulation of Palmitoylation Enzymes and Substrates by Intrinsically Disordered Regions

Reddy, Krishna D.

15 November 2016

Protein palmitoylation refers to the process of adding a 16-carbon saturated fatty acid to the cysteine of a substrate protein, and this can in turn affect the substrate’s localization, stability, folding, and several other processes. This process is catalyzed by a family of 23 mammalian protein acyltransferases (PATs), a family of transmembrane enzymes that modify an estimated 10% of the proteome. At this point in time, no structure of a protein in this family has been solved, and therefore there is poor understanding about the regulation of the enzymes and their substrates. Most proteins, including palmitoylation enzymes and substrates, have some level of intrinsic disorder, and this flexibility can be important for signaling processes such as protein- protein interactions and post-translational modifications. Therefore, we assumed that examining intrinsic disorder in palmitoylation enzymes and substrates would yield insight into their regulatory mechanisms. First, we found that among other factors, utilizing intrinsic disorder predictions led to a palmitoylation predictor that significantly outperformed existing predictors. Next, we discovered a conserved region of predicted disorder-to-order transition in the disordered C-termini of the PAT family. In Erf2, the yeast Ras PAT, we developed a model where this region reversibly interacts with membranes, and we found that this region mediates interaction with Acc1, an enzyme involved in fatty acid metabolism processes. Finally, we found that an XLID-associated nonsense mutation in zDHHC9, the mammalian Ras PAT, removed a disordered region that was critical for enzyme localization. Future studies of palmitoylation utilizing the framework of intrinsic disorder may lead to additional insights about this important regulatory process.

Acylation

Protein Acyltransferase

Intrinsically Disordered Protein

Fatty Acid Metabolism

Palmitoylation Predictor

X-Linked Intellectual Disability

Biochemistry

Bioinformatics

Neurosciences

Preimplantační genetická haplotypizace v geneticky rizikových rodinách / Preimplantation genetic haplotyping in genetically risk families

Borgulová, Irena

January 2018

PREIMPLANTATION GENETIC HAPLOTYPING IN GENETICALLY RISK FAMILIES Abstract of Irena Borgulova's PhD study Page 1/1 ABSTRACT Preimplantation genetic diagnosis (PGD) is at the intersection of assisted reproduction and clinical genetics. PGD precedes prenatal diagnosis because consists in biopsy of a single embryonic cell and its examination excluding genetic risks before embryo transfer back to mother uterus. Methods within PGD can offer all spectrums of possible investigations of a single cell, whether focused on monogenic disorders, chromosomal aberration or abnormality of whole genome. Monogenic diseases in embryos can be detected by direct or indirect linkage analysis. Indirect linkage analysis has the advantage compared to direct analysis that it is able to indentify pertinent aberration of examined chromosome. Indirect linkage analysis is characterised by preimplantation genetic haplotyping (PGH) which is prime and important constituent of PGD cycle. PGH is based on family anamnesis for determination of pathologic/ high-risk (mutation-associated) haplotype and healthy/ low-risk (without mutation) haplotype by comparison with the haplotypes of other family members. PGD cycle requires in vitro fertilisation (IVF). IVF cycle includes hormonal stimulation, biopsy of oocytes and their fertilisation outside...

IAP Regulation of Tumor Metastasis: A Dissertation

Mehrotra, Swarna

23 June 2009

The dissemination of tumor cells to distant organs i.e. metastasis is an exceedingly complex process leading to 90% of all cancer deaths. Despite being so clinically important, little is known about this process that requires tumor cells to leave the primary tumor site, intravasate and transport through the blood stream, extravasate and colonize at secondary sites leading to distant metastases. Survivin, a member of the IAP (Inhibitor of Apoptosis) family with known functions in apoptosis and mitosis, is highly expressed in aggressive tumors and is associated with poor prognosis and adverse clinical outcome. But the mechanistic role of survivin in metastatic dissemination has not been investigated. In this study, we demonstrate an important and novel role of survivin in activating a broad gene expression program in tumor cells. Of particular importance is the upregulation of a distinct class of cell adhesion molecules, particularly fibronectin. This IAP mediated gene regulation requires synergistic intermolecular cooperation between survivin and its related cofactor molecule, XIAP that results in activation of NF-κB dependent fibronectin gene expression. The binding of fibronectin with its cognate cell surface receptors initiates outside–in signaling leading to the autocrine and paracrine activation of cell motility kinases, FAK and Src, in turn leading to enhanced tumor invasion and metastasis. The importance of survivin and XIAP in the process of metastasis has also been demonstrated in vivousing intrasplenic injections in mouse models. Overall this study is the first to place survivin upstream of transcriptional activation of gene expression particularly fibronectin. In addition, it also demonstrates the importance of survivin-XIAP complex in mediating NF-κB activation which in turn switches on the expression of various target genes involved in tumor metastasis. Hence this study dissects the upstream and downstream requirements of survivin- XIAP complex mediated tumor dissemination and metastasis. Significance of this Study The hallmark of end-stage cancer is metastasis, an incurable condition almost invariably associated with death from disease. Despite a better understanding of the metastatic process, and the identification of key gene expression requirements of this pathway, the development of anti-metastatic therapies has lagged behind, with no viable options being currently offered in the clinical setting. Our findings that Inhibitor of Apoptosis (IAP) proteins functions as metastasis-promoting genes independently of cell survival, but through activation of cell motility could have important ramifications for the broader application of IAP antagonists currently in early clinical trials, as novel anti-metastatic therapies.

Neoplasm Metastasis

Inhibitor of Apoptosis Proteins

Fibronectins

Transcriptional Activation

X-Linked Inhibitor of Apoptosis Protein

Amino Acids, Peptides, and Proteins

Neoplasms

Characterization of Snyder-Robinson Syndrome (SRS) in Mutant Mice and Treatment with a Novel Spermine Prodrug to Rebalance Intracellular Polyamine Levels

Mitra, Deepshikha

01 January 2023

Snyder-Robinson syndrome (SRS) is an X-linked neurodegenerative disorder affecting males. The disease appears early in childhood with symptoms like bone abnormalities, reduced muscle mass, and mobility issues. It results from disrupted polyamine biosynthesis, which is due to a mutation in spermine synthase (Sms). This causes an abnormally elevated Spermidine: Spermine ratios. There is no approved SRS treatment, rather only management of symptoms. A genetic mouse model for the SmsG56S mutation found in some SRS patients was characterized, and a novel spermine Prodrug treatment was tested. The hypothesis is that male SmsG56S mutant mice exhibit polyamine dysregulation and SRS traits, while Prodrug intervention may rebalance abnormal ratios and facilitate a normalized phenotype. Mice were phenotyped in pure C57BL/6J, mixed C3H, and backcrossed C57BL/6J x C3H backgrounds. Lethality of the mutation, especially in C57BL/6J mice, was an obstacle. Viable mutant mice exhibited reduced body weight, typically smaller size, and lower bone densities compared to age-matched wild-type mice. Prodrug treatment was performed using different dosing strategies and in all backgrounds. Upon histological examination, testes and bone exhibited subtle defects in affected mutant male mice, while no detectable differences were found in skeletal muscle, liver, or kidney compared to wild-type mice. Acute prodrug treatment using oral gavage 5 times per week over 2 weeks was found to rebalance the Spermidine: Spermine ratio. Repeated efforts to dose Prodrug over a longer 6-8 week duration in mice required lower intraperitoneal doses but outcomes may have been moderated by the mice background. Overall, the SmsG56S phenotype in the testes and bone are consistent with other mutant Sms models, although C57BL/6J mice seemed to be more sensitive to the SmsG56S mutation. Further testing of Prodrug is needed, including in younger mice and for a longer duration of treatment, to evaluate Prodrug effectiveness in improving traits in SmsG56S mice.

Snyder-Robinson syndrome

novel spermine Prodrug

polyamine deficiency

X-linked disorder

SmsG56S mouse model

Biotechnology

Medical Neurobiology

Sequence-based molecular diagnosis of X-linked agammaglobulinemia in South African individuals

Leo, Melanie Joy

04 March 2011

Thesis (MScMedSc)--University of Stellenbosch, 2011. / ENGLISH SUMMARY: Background: Primary immunodeficiency disorders (PID) disrupt the proper functioning of the immune system. The prototypic PID is X-linked Agammaglobulinemia (XLA). This disorder is caused by mutations in the Bruton tyrosine kinase (Btk) gene and results in an arrest in B cell development which leads to a profound reduction of all classes of serum immunoglobulins (i.e antibodies). Patients with a lack of antibodies experience recurring bacterial infections during early childhood that can be fatal if not treated. Intravenous gammaglobulin replacement therapy (IVIg) is the standard treatment for XLA. It provides passive immunity thereby reducing the number and severity of infections as well as limiting many of the infectious complications. Early detection and treatment of XLA allows affected individuals to live a relatively normal life. Objective: The purpose of this study was to determine the molecular basis of XLA in South Africa using a direct sequence-based method to detect abnormalities in the Btk gene to aid clinical diagnosis of the disease. Methods : Male patients with a clinical diagnosis of XLA were included in this study. Genetic analysis was used to explore the exonic region of the Btk gene of 5 unrelated male patients and compared to 10 healthy controls. Family members were followed up to determine carrier status, where possible. Results: Mutational analysis revealed Btk abnormalities in 4 of the 5 patients leading to a definitive diagnosis of XLA. Two of the three mutations found in this study have been previously described while one mutation appears to be novel. The novel mutation is a one base pair deletion in exon 16 which leads to the truncation of the Btk protein. Despite the clinical findings suggestive of XLA, no mutation was identified in the exonic region of the Btk gene of the remaining patient, indicating that this patient might have a different form of PID. Maternal follow-up confirmed the maternal inheritance pattern as all mothers screened were carriers of the Btk mutation present in the affected individual. Discussion : Using a direct sequence-based method abnormalities were identified in the Btk gene of three patients. Molecular diagnosis coupled to clinical history of the patient provides a definitive XLA diagnosis. This study supports the use of molecular techniques in the diagnosis of PID and underlines the synergy that could be possible in a clinical setting. / AFRIKAANSE OPSOMMING: Agtergrond: Primêre immuungebrek siektes (PIGS) word gekenmerk aan ‘n gebrek aan teenliggame in die immuunsisteem wat lei tot herhaalde infeksies in jong kinders wat fataal kan wees indien dit nie vroegtydig behandel word nie. Die prototype van die bekende PIGS is X-gekoppelde Agammaglobulinemia (XGA). Die siekte word veroorsaak deur mutasies in die Bruton Tirosien kinase (Btk) geen en lei tot ʼn stilstand in B sel ontwikkeling en gevolglik ʼn vermindering van alle klasse van serum immuunoglobulins (teenliggaam). Intraveneuse gammaglobulien vervangingsterapie(IVIg) is die standaard behandeling vir XGA. Dit voorsien passiewe immunitiet en gevolglik verminder dit die getal en erns van infeksies en beperk baie van die aansteeklike komplikasies. Vroeë diagnose en behandeling van XGA laat toe dat geaffekteerde individue ʼn relatiewe normale lewe ly. Doel: Die doel van hierdie studie is om die molekulêre basis van XGA in Suid Afrika te ondersoek, deur gebruik te maak van direkte volgorde bepaling van die Btk geen in die hoop om die kliniese diagnose van die siekte aan te help. Metode : Manlike pasiente met ‘n kliniese diagnose wan XGA was by die studie ingesluit. Genetiese analise was gebruik om die “exonic” omgewing van die Btk geen te ondersoek van 5 onverwante manlike pasiente en vergelyk teenoor 10 gesonde kontrole. Waar moontlik was familie lede ogevolg om draers te bepaal. Resultaat: Mutasies in die Btk geen is geidentifiseer in 3 van die 4 pasiente, klinies gediagnoseer meet XGA. Die mutasies sluit 2 reeds beskryfde variante in en een nuwe mutasie, ‘n een basis paar delesie in ekson 16 van die Btk geen, Ten spyte van die kliniese profiel suggestief van XGA in die 5de pasient, was geen mutasies geidentifiseer in die “exconic” omgewing van die Btk geen nie, dit kan moontlik toegeskryf word aan die teenwoordigheid van ‘n ander vorm van PIGS in hierdie pasient. Opvolg analise op die DNA van die moeders van die pasiente het die moederlike oorerwings patroon van die siekte bevestig aangesien al die moeders draers van die geidentifiseerde mutasie in die Btk geen van die gaffekteerde individu was. Gevolgtrekking: Genetiese analise van die Btk geen blyk ʼn sensitiewe en spesefieke metode te wees om individue met XGA te diagnoseer. Hierdie studie ondersteun die gebruik van molekulêre metodes in die diagnose van PIGS en beklemtoon die moontlike sinergie wat kan bestaan tussen hierdie tipe benadering in die kliniese omgewing. / National Research Foundation / National Health Laboratory Services : Pathology Research Development Grant of NHLS Research Trust Grants

X-linked-agammaglobulinemia

Immunodeficiency disorders (PID)

Immune system

XLA

Theses -- Medical microbiology

Dissertations -- Medical microbiology

Pathology

Unraveling the Causative Defects in X-linked Myopathy with Excessive Autophagy

Oprea, Iulia

19 February 2010

X-linked myopathy with excessive autophagy (XMEA) is a skeletal muscle disorder inherited in recessive fashion, affecting boys and sparing carrier females. Onset is in childhood with weakness of the proximal muscles of the lower extremities, progressing slowly to involve other muscle groups. Pathological analysis of skeletal muscle biopsies shows no inflammation, necrosis or apoptosis. Instead, forty to 80% of fibers exhibit giant autophagic vacuoles with heterogeneous degradative content. Numerous critical functions of all cells are compartmentalized in particular pH environments established by the intracellular transmembrane V-ATPase proton pump complex. Assembly of this complex, directed by the Vma21p chaperone, is well-studied in yeast but completely unknown in other organisms. The aim of my project was a better understanding of XMEA pathogenesis, with a focus on finding the disease-causing gene. In this thesis, I identify mutations in XMEA patients in a novel, previously uncharacterized gene, which we name VMA21. Most of the mutations are located in splicing-relevant positions and decrease splicing efficiency. After establishing that XMEA is caused by hypomorphic alleles of the VMA21 gene, I show that VMA21 is the diverged human orthologue of the yeast Vma21p protein, and that like Vma21p, it is an essential assembly chaperone of the V-ATPase. Decreased VMA21 reduces V-ATPase activity, resulting in altered lysosomal pH and a blockage at the degradative step of autophagy. Towards understanding disease pathogenesis, I show evidence of compensatory autophagy upregulation consecutive to the impaired clearance. Accumulated autolysosomes due to increased autophagy continue to face the degradative block and are slow to disappear. Instead, they merge to each other and form the characteristic giant XMEA vacuoles. These results uncover a novel mechanism of disease, namely macroautophagic overcompensation leading to cell vacuolation and tissue atrophy. This work describes the clinical outcome at the cusp of tolerable reduction in V-ATPase, with implications on common diseases like osteoporosis and cancer metastasis, where increased V-ATPase activity is an important component. Our XMEA patients show that the safety margin of reducing V-ATPase activity in humans is wide, increasing the potential to utilize chemical or biological V-ATPase inhibitors as possible therapies.

0379

0369

0307

0566

Análise da via autofágica no músculo distrófico / Analysis of the autophagic pathway in the dystrophic muscle

Fernandes, Stephanie de Alcântara

04 August 2017

O músculo esquelético é um tecido que tem a capacidade de se regenerar após lesão, seja ela patológica ou induzida. Para tanto, células musculares progenitoras, presentes no músculo adulto, atuam fundindo-se entre si, ou com as fibras musculares danificadas, para formar novas fibras. A via da macroautofagia, implicada na degradação e reciclagem de proteínas e organelas danificadas via lisossomo, é essencial para a manutenção da massa muscular, mas já foi também implicada na diferenciação e funcionamento de células progenitoras do músculo. Além disso, essa via está desregulada em diversas doenças neuromusculares, o que destaca seu papel nesse tecido. Nesse estudo, a regulação da autofagia foi investigada em diferentes situações de formação e degradação do músculo. Para estudar o processo de diferenciação muscular in vitro utilizamos um modelo de células musculares imortalizadas normais, e de paciente com miopatia ligada ao X com autofagia excessiva (XMEA). A análise dos genes e proteínas p62, BNIP3, BECLIN1, VPS34, ATG12 e LC3, além de alvos de mTOR, mostrou um padrão similar de expressão em mioblastos indiferenciados e miotubos diferenciados a partir de células controle e nas derivadas de paciente XMEA. Estes resultados sugerem que a desregulação da via autofágica relacionada à doença provavelmente surge em estágios mais avançados, como se observa em doenças de acúmulo lisossomal. A investigação da diferenciação muscular nessas células mostrou um aumento na capacidade de fusão de mioblastos XMEA, que não foi relacionado a mudanças na expressão de genes envolvidos na miogênese. Isso indica que o defeito primário relacionado a XMEA, como a deficiência da ATPase vacuolar, pode interferir no processo de diferenciação muscular. Para estudar o músculo em condições patológicas, utilizamos modelos animais para distrofias musculares que possuem distintos graus de afecção do músculo, como o DMDmdx, modelo para distrofia muscular de Duchenne, o SJL/J, modelo para distrofia muscular de cinturas tipo 2B e o Largemyd, modelo para distrofia muscular congênita 1D. Observamos que não há alterações globais na expressão de genes e proteínas da autofagia. Adicionalmente, cada modelo murino teve alterações pontuais, destacando a ausência de correlação entre o grau de degeneração do músculo e as alterações observadas na via autofágica. Por outro lado, quando uma lesão muscular é induzida em músculo normal, houve uma diminuição da expressão de todos os genes estudados, Bnip3, Beclin1, Vps34, Atg12, Lc3 e Gabarapl1, com possível acúmulo das proteínas autofágicas p62 e Beclin1. Com a recuperação do músculo, após cinco dias da lesão, a maior parte dos genes estudados teve sua expressão normalizada. Tais resultados indicam que a lesão aguda se relaciona a uma resposta drástica e recuperação rápida na via da autofagia. Em conjunto, nossos resultados mostram que a via da autofagia é diferencialmente afetada a depender do estímulo dado ao músculo, seja ele de regeneração e formação de novas células musculares ou de degeneração. Dessa forma, este estudo pode ter implicações para o desenvolvimento de terapias que tenham como alvo a via autofágica, já que indica que o momento da intervenção terapêutica pode ser importante, assim como o estímulo que levou a alterações no tecido muscular / The skeletal muscle is a tissue that has the ability to regenerate upon lesion, whether it occurs pathologically or induced. Therefore, progenitor muscle cells, present in the adult muscle, act by fusing with each other or with damaged fibers in order to recover the tissue. The macroautophagy pathway, related to degradation and recycling of proteins and damaged organelles via lysosome, is essential for the maintenance of muscle mass, and it was also implicated in the differentiation and functioning of muscle progenitor cells. Besides that, this pathway is deregulated in several neuromuscular disorders, highlighting its important role in this tissue. In this study, the autophagic regulation was investigated in distinct contexts of muscle formation and degradation. To study the muscle differentiation process in vitro, we used a model of immortalized muscle cells from both a normal control and a patient with X-linked myopathy with excessive autophagy (XMEA). The genes and proteins p62, BNIP3, BECLIN1, VPS34, ATG12, LC3 and mTOR targets showed a similar pattern of expression in both undifferentiated myoblasts and differentiated myotubes, from both control cells and XMEA patient-derived cells. This fact suggests that autophagic deregulation might arise in later stages of the disease, in a pattern observed in disorders with protein accumulation. The investigation of muscle differentiation in the studied cells showed an enhancement of the myoblast fusion capacity in XMEA cells, which was not related to changes in the expression of myogenic genes. This observation indicates that the primary defect related to the XMEA pathology, as the deficiency of the vacuolar ATPase, might interfere in the process of muscle differentiation. In order to evaluate muscle in pathological conditions, we studied animal models for muscular dystrophies that have distinct patterns of muscle affection, such as the DMDmdx, model for the Duchenne muscular dystrophy, the SJL/J, model for the limb-girdle muscle dystrophy type 2B and the Largemyd, model for the congenital muscular dystrophy type 1D. We did not find any global alterations in the expression of autophagic genes and proteins. Additionally, each animal model had discrete changes, highlighting the absence of correlation between the pattern of muscle degeneration and alterations in the autophagy pathway. On the other hand, when a lesion is induced in normal muscle, there is a decrease in the expression of all studied genes, such as Bnip3, Beclin1, Vps34, Atg12, Lc3 and Gabarapl1, with a possible accumulation of the autophagic proteins p62 and Beclin1. With muscle recovery, five days after lesion, most of the studied genes had their expression returning to normal levels. These results indicate that the acute lesion is related to a drastic response and rapid recovery of the autophagic pathway. Together, our results show that autophagy is differentially affected depending on the stimulus given to the muscle, either of regeneration and formation of new muscle cells or degeneration. In that sense, this study may have implications for the development of therapies that target autophagy, since it indicates that the time point of therapeutic interventions may be important, as well as the stimulus that led to alterations in the skeletal muscle tissue

Autofagia

Autophagy

Degeneração muscular

Distrofias musculares

Muscle degeneration

Muscle regeneration

Muscular dystrophies

Regeneração muscular

Étude transcriptionnelle des mutations dans le Médiateur ou dans son partenaire NIPBL à l'origine des maladies génétiques / Transcriptional study of mutations in Mediator complex subunits or his partner NIPBL causing genetic diseases

Donnio, Lise-Marie

15 December 2014

Le Médiateur (MED) est un complexe multi-protéique dont le principal rôle est de transmettre à la machinerie transcriptionnelle de base les différents signaux fournis par les facteurs fixés sur des séquences d’ADN spécifique , permettant ainsi une régulation fine de l’expression des gènes. Des mutations dans le MED ou ses partenaires, comme NIPBL, sont à l’origine de diverses maladies telles que des malformations congénitales, des troubles neuro développementaux ou des cancers.A partir de cellules provenant de patients portant différentes mutations dans les sous-unités MED12 ou MED17 du MED ou dans NIPBL, nous avons observé une altération du niveau d’expression de certains gènes qui dépend de la localisation de la mutation et de la nature de leur activation. Ces variations de l’expression des gènes sont la conséquence d’un défaut dans la formation du complexe de transcription et du remodelage de la chromatine (modifications post-traductionnelles des histones). Outre une meilleure appréhension du rôle des sous-unités MED12 et MED17 du MED ainsi que NIPBL, sur la transcription des gènes, ma thèse a permis de mieux comprendre l’étiologie des maladies associées à une mutation dans ces protéines. / Mediator (MED) is a multi-protein complex whose main role is to convey to basal transcriptional machinery the different signals from factors bound at specific DNA sequences , allowing thus a fine regulation of gene expression. Mutations in MED or its partners, like NIPBL, cause various diseases, such as congenital malformations, neurodevelopmental disorders or cancers. Using cells from patients carrying different mutations in the MED subunits, MED12 or MED17, or in NIPBL, we observed an alteration of the expression of studied genes which depend on the position of the mutation and on the nature of the activation. These variations of gene expression are the consequence of a defect in transcription complex formation, as well as in chromatin remodeling(post-translational histones modifications). In addition to better comprehend the role of the MED subunits MED12 and MED17, and of NIPBL on gene transcription, my thesis helped to better understand the ethiology of the disorders associated with mutations in these proteins.

Médiateur

Transcription

Maladies génétiques

NIPBL

MED12

MED17

Mediator complex

Genetic disorders

Transcription

X-linked intellectual disabilities

MED12

MED17

NIPBL

572.8

616.04