Analise molecular do loco C4/CYP21 : impacto da variabilidade alelica provocada por recombinações sobre os metodos de avaliação de mutações / Molecular analysis of C4/CYP21 locus : influence of allelic variability caused by recombinations on current methods of mutation detection

Coeli, Fernanda Borchers

13 August 2018

Orientador: Maricilda Palandi de Mello / Tese (doutorado) - Universidade Estadual de Campinas, Insituto de Campinas / Made available in DSpace on 2018-08-13T00:56:19Z (GMT). No. of bitstreams: 1 Coeli_FernandaBorchers_D.pdf: 7777269 bytes, checksum: 053a66d2bc3df6ad0d5de7c2038f3246 (MD5) Previous issue date: 2009 / Resumo: A hiperplasia congênita da adrenal é causada pela deficiência de uma das cinco enzimas responsáveis pela síntese do cortisol na esteroidogênese, sendo que mais de 90% dos casos ocorrem devido à deficiência de 21-hidroxilase (21-OH). O genoma haplóide humano possui duas cópias em tandem do gene que codifica para a 21-OH, denominados CYP21A2 e o CYP21A1P. Embora as duas cópias, CYP21A1P e CYP21A2, tenham aproximadamente 98% de homologia, CYP21A1P é classificado como um pseudogene, devido a algumas alterações deletérias em sua seqüência. Foram mapeados no braço curto do cromossomo 6, assim como os genes RP, C4 e TNX também duplicados em tandem. Este loco é denominado modulo RCCX, onde cada letra representa um gene. Uma conseqüência esperada deste tipo de organização é que esta favorece eventos de crossingover desigual, produzindo cromátides irmãs assimétricas e pares de gametas com um número variável de unidades completas. O crossover desigual não gera somente um tipo definido de deleção (alelos monomodulares), de duplicação (alelo trimodular) ou de conversão (alelo bimodular), mas pode, dependendo da sua exata localização, produzir um grande número de alelos diferentes, com significados funcionais variáveis. O objetivo deste trabalho foi investigar a variabilidade dos genes híbridos CYP21A21P/CYP21A2 quanto à região de recombinação nos alelos monomodulares, bimodulares e trimodulares de indivíduos com deficiência de 21- hidroxilase. Foram incluídos 55 pacientes com deficiência de 21 - hidroxilase, que foram avaliados por Southern blot, Multiplex ligation-dependent probe amplification (MLPA), PCR - Alelo especifico (ASO-PCR) e seqüenciamento. Na triagem por Southern blot foram identificados 26 alelos mono-, 26 bi- e 5 trimodulares com prováveis genes híbridos. Foi identificado um alelo monomodular novo portador da variante C4A [6,4 kb] que se mostrou único inclusive quanto à formação híbrida CYP21A21P/CYP21A2. Com a técnica de MLPA foi possível mapear três regiões principais de recombinação dos genes híbridos CYP21A21P/CYP21A2 nas três configurações alélicas. Além disso, foram identificados possíveis híbridos dos genes C4A e B, tanto nas configurações mono quanto nas bimodulares. Assim, ficaram definidos 5 haplótipos monomodulares, 7 bimodulares e 3 trimodulares. As técnicas de ASO-PCR e sequenciamento para análise dos híbridos CYP21A21P/CYP21A2 e dos CYP21A21P nos alelos bi e trimodulares refinaram a caracterização subdividindo estes haplótipos em 10 mono, 15 bi e 5 trimodulares. Dado o alto grau de variabilidade encontrado não foi possível se identificar efeito fundador de nenhum haplótipo específico para a deficiência de 21-hidroxilase. Por outro lado, um haplótipo novo correspondendo a cerca de 15% dos monomodulares foi caracterizado como portador das mutações p.P34L e p.H62L e um haplótipo igualmente não descrito portador da p.H62L foi encontrado entre os bimodulares. SNPs no terminal 5'UTR, no íntron 2 e no éxon 7 responderam pela diferenciação principal entre os híbridos tanto nos haplótipos de mesmo grupo como na comparação entre os de grupos diferentes. Este trabalho indica que a combinação de quatro técnicas e o estudo de segregação nas famílias foram fundamentais para o esclarecimento dos genótipos dos pacientes. Os genes híbridos podem estar relacionados às formas clínicas perdedora de sal, não perdedora de sal e não clássica dependendo da região onde ocorre a recombinação para sua formação. / Abstract: Congenital adrenal hyperplasia is caused by deficiency of one of the five enzymes responsible for cortisol synthesis in the steroidogenesis. More than 90% of the cases occur due to deficiency of 21-hidroxilase (21-OH). The haploid human genome bears two copies in tandem of 21-OH coding gene, CYP21A2 and CYP21A1P. Although the two copies are approximately 98% homologous, CYP21A1P is a pseudogene, due to some deleterious mutations. They map to the short arm of chromosome 6, as well as RP, C4 and TNX genes which are also duplicated in tandem. This locus is called RCCX module, each letter representing one gene. An expected consequence of such organization is that it favors events of unequal crossing-overs, producing pairs of gametes with different number of complete units. The aim of this investigation was to estimate the variability of CYP21A21P/CYP21A2 chimeric genes based on the region of recombination in the monomodular, bimodular and trimodular alleles in patients with 21-hydroxylase deficiency. Fifty-five patients were included for Southern blot, Multiplex ligationdependent probe amplification (MLPA), Allele-specific PCR (ASO-PCR) and sequencing analyses. Southern blot identified alleles which were: mono (n = 26), bi (n = 26) and trimodular (n = 5) with chimeric genes. A novel monomodular allele was identified that carry C4A [6,4 kb] variant and also bore an unique CYP21A21P/CYP21A2 formation. MLPA technique mapped three main recombination regions in CYP21A21P/CYP21A2 chimerical genes in the three RCCX configurations. Moreover, it indicated possible chimeric C4A and B genes in both mono- and bimodular configurations. Therefore, five mono-, seven bi- and three trimodular haplotypes had been defined. Both ASO-PCR and sequencing techniques for CYP21A21P/CYP21A2 and CYP21A21P analysis had refined the characterization subdividing these haplotypes in ten mono-, fifteen bi- and five trimodular. Considering the high degree of variability observed it was not possible to identify a founder effect of any specific haplotype for the deficiency of 21-hidroxilase. Conversely, a novel haplotype corresponding to about 15% of the monomodular alleles was characterized as carrying the mutations p.P34L and p.H62L and, similarly one haplotype carrying the p.H62L was found among bimodular alleles. SNPs in the 5 ' UTR, intron 2 and exon 7 were responsible for the main differentiation among chimerical genes within a group as well as upon comparison between different groups. The results presented here indicate that the combination of four different techniques and the study of segregation in the families had been essential for defining the genotypes of the patients. It is also shown that CYP21A21P/CYP21A2 chimeric genes can be related to different clinical forms: salt losing, non-salt losing and non-classical depending on the region where the recombination for its formation occurs. / Doutorado / Genetica Animal e Evolução / Doutor em Genetica e Biologia Molecular

Gene hibrido CYP21A1P/CYP21A2

Deficiencia de 21 hidroxilase

Modulo RCCX

Deleção de genes

Conversão genica

CYP21A1P/CYP21A2 chimeric gene

21-hydroxylase deficiency

RCCX module

Gene deletion

Gene conversion

Études fonctionnelles et structurales des mutants du gène CYP21A2 dans l’hyperplasie congénitale des surrénales / Functional and structural studies of CYP21A2 gene mutants in congenital adrenal hyperplasia

Menassa, Rita

02 November 2009

Le déficit en 21-hydroxylase est la cause la plus fréquente des hyperplasies congénitales des surrénales. Un grand nombre de nouvelles mutations a été trouvé dans le laboratoire qui centralise la plus grande cohorte de familles au niveau international et l’évaluation de leur sévérité était primordiale pour optimiser la prise en charge des patients (thérapeutique, conseil génétique). Grâce à l’analyse approfondie du phénotype des patients et au développement d’études fonctionnelles (in vitro, in silico), nous avons pu évaluer le retentissement de la plupart des 85 nouvelles mutations ; nous avons choisi comme témoins des mutations fréquentes de sévérité connue et nous avons comparé nos résultats avec ceux de la littérature. L’analyse plus approfondie d’une quinzaine de mutations rares a confirmé l’existence de bonnes corrélations phénotype-génotype comme ceci est décrit dans cette pathologie. Par ailleurs, les études structurales que nous avons développées ont permis d’améliorer les connaissances sur les relations structure-fonction des cytochromes P450 en général. / Steroid 21-hydroxylase deficiency is the most common enzymatic defect causing congenita ladrenal hyperplasia. A large number of new mutations has been detected in the laboratory, which centralizes the biggest cohort of families in the world, and evaluation of their severity wasessential to optimize the care of the patients (treatment, genetic counselling). Thanks to detailed analysis of the patients phenotype and to the development of functional studies (in vitro, in silico), we were able to evaluate the severity of most of the 85 novel mutations; we decided touse as controls frequent known mutations and to compare our results with those of literature. Themore detailed analysis of about fifteen rare mutations confirmed the existence of goodcorrelations phenotype-genotype as this is described in this pathology. Moreover, the structural studies we developed led to improve the knowledge on structure-function relationship of theP450 cytochromes family.

Hyperplasie congénitale des surrénales

CYP21A2

Études fonctionnelles

CYP21

Études structurales

Corrélations phénotype-génotype

Congenital adrenal hyperplasia

CYP21A2

Functional studies

CYP21

Structural studies

Phenotype-genotype correlations

Novel therapeutic approaches for Congenital Adrenal Hyperplasia

Schubert, Tina

05 September 2022

No description available.

Nebenniere, Mausmodell, CYP21A2

adrenal, mouse model

info:eu-repo/classification/ddc/610

ddc:610

Études fonctionnelles et structurales des mutants du gène CYP21A2 dans l'hyperplasie congénitale des surrénales

Menassa, Rita

02 November 2009

Le déficit en 21-hydroxylase est la cause la plus fréquente des hyperplasies congénitales des surrénales. Un grand nombre de nouvelles mutations a été trouvé dans le laboratoire qui centralise la plus grande cohorte de familles au niveau international et l'évaluation de leur sévérité était primordiale pour optimiser la prise en charge des patients (thérapeutique, conseil génétique). Grâce à l'analyse approfondie du phénotype des patients et au développement d'études fonctionnelles (in vitro, in silico), nous avons pu évaluer le retentissement de la plupart des 85 nouvelles mutations ; nous avons choisi comme témoins des mutations fréquentes de sévérité connue et nous avons comparé nos résultats avec ceux de la littérature. L'analyse plus approfondie d'une quinzaine de mutations rares a confirmé l'existence de bonnes corrélations phénotype-génotype comme ceci est décrit dans cette pathologie. Par ailleurs, les études structurales que nous avons développées ont permis d'améliorer les connaissances sur les relations structure-fonction des cytochromes P450 en général.

Hyperplasie congénitale des surrénales

CYP21A2

Études fonctionnelles

CYP21

Études structurales

Corrélations phénotype-génotype

Enzymatic Regulation of Steroidogenesis and Nuclear Receptor Activation : Special Focus on Vitamin D and Sex Hormones

Lundqvist, Johan

January 2011

Enzyme-catalyzed reactions are important to regulate steroidogenesis and nuclear receptor activation. The present investigation examines the role of steroid metabolism catalyzed by CYP7B1 for regulation of hormone receptor activation and the effects of vitamin D on enzymatic regulation of steroidogenesis. The study reports data indicating that CYP7B1 can regulate estrogenic signaling by converting estrogens into inactive or less active metabolites. Similar results were obtained for CYP7B1-mediated metabolism of some androgen receptor ligands, indicating that CYP7B1 can be involved also in the regulation of androgenic signaling. CYP7B1 substrates and metabolites were found to exert androgenic effects in a cell line-specific manner. Furthermore, cell line differences were observed in the expression pattern for androgen receptor comodulators. This thesis reports that 1α,25-dihydroxyvitamin D3 alters the gene expression and enzyme activity of CYP21A2 and CYP17A1 leading to suppressed production of aldosterone, dehydroepiandrosterone and androstenedione in adrenocortical cells. These are novel findings on vitamin D action. A mechanism is reported for the vitamin D-mediated regulation of the CYP21A2 gene. Data indicate that vitamin D receptor interacting repressor (VDIR) and Williams syndrome transcription factor (WSTF) are key comodulators in this novel vitamin D receptor (VDR)-mediated mechanism. Furthermore, the results indicate that altered expression levels of VDIR and WSTF can shift the suppressing effect of vitamin D to a stimulatory effect. Also, epigenetic components were found to be involved in the effects of vitamin D on CYP21A2 transcriptional rate. In addition, a functional vitamin D response element was identified in the CYP21A2 promoter. This study also reports that 1α,25-dihydroxyvitamin D3 affects sex hormone production in a tissue-specific way. Gene expression and enzyme activity of aromatase were found to be downregulated in cells derived from breast, but not in cells derived from prostate and adrenal cortex. The production of estradiol and dihydrotestosterone was altered in a tissue-selective manner following vitamin D treatment. These findings are of importance for the discussion on vitamin D as a potential anti-breast cancer agent.

adrenal steroidogenesis

CYP7B1

vitamin D

calcitriol

enzymatic regulation

transcriptional regulation

CYP21A2

aromatase

sex hormone

estrogen

androgen

nuclear receptor

Pharmaceutical biochemistry

Farmaceutisk biokemi