Prevalência do polimorfismo R72P no gene TP53 E C677T / A1298C do gene da metilenotetrahidrofolato redutase (MTHFR) em mulheres judias ashkenazi de Porto Alegre

Silva, Isabel Cristina Bandeira da

January 2011

A suscetibilidade ao câncer se apresenta com diferentes freqüências em diferentes populações. Dentre muitas das estudadas está a população judaica Ashkenazi, que vêm sendo alvo de muitos trabalhos por apresentarem doenças genéticas em proporção maior do que seria esperado para outra população qualquer. Tal incidência provavelmente advém do fato de terem sofrido dois grandes bottlenecks ao longo de sua história, gerando um efeito fundador que seria responsável pela alta incidência de doenças genéticas. O gene TP53 tem papel importante em um grande número de processos celulares e o polimorfismo Arg72Pro (R72P) deste gene leva a diferenças funcionais em atividades biológicas e bioquímicas, o que parece estar intimamente ligado ao câncer de mama. Da mesma forma, acredita-se que a variação genética de genes para metilenotetrahidrofolato redutase (MTHFR), enzima essencial no metabolismo um-carbono, pode alterar os níveis de metilação do DNA e influenciar a carcinogênese. Buscou-se então verificar qual a prevalência do polimorfismo R72P e dos polimorfismos de MTHFR (A1298C e C677T) em mulheres judias Ashkenazi de Porto Alegre. Para isto, foi utilizado material biológico proveniente de 255 mulheres Ashkenazi residentes na cidade de Porto Alegre e 255 amostras de um grupo controle de doadores saudáveis do hospital de clínicas de Porto Alegre, para amplificação das regiões de interesse através da técnica de PCR seguida por digestão com enzimas de restrição específicas. O polimorfismo R72P mostrou uma freqüência genotípica de ~61% Arg/Arg, ~37% Arg/Pro e ~2% Pro/Pro nas mulheres judaicas Ashkenazi; em comparação com a amostra controle que mostrou uma freqüência genotípica de ~43% Arg/Arg, ~44% Arg/Pro e 13% Pro/Pro. Com relação aos polimorfismos de MTHFR, obteve-se os seguintes resultados para judias e controles, respectivamente: 677CC (31 e 42%), 677CT (47 e 48%), 677TT (22 e 10%), 1298AA (49,4 e 60%), 1298AC (43,1 e 35%) e 1298CC (7,5 e 5%). Os resultados estatísticos mostraram-se significativos para as freqüências alélicas e genotípicas (P<0,001 para R72P; P=0,000 para C677T e P=0,041 para A1298C). Ampliar e diversificar as amostras se faz necessário para avaliar consistentemente como a influência das diferenças étnicas e raciais podem afetar os resultados dos estudos, além de aspectos como alimentação, fumo, hábito de beber, casamentos consangüíneos, entre outros, devem ser considerados nas análises de dados, buscando uma melhor resposta em relação às hipóteses levantadas e assim eliminando da análise possíveis fatores de confusão. / Cancer susceptibility is presented with different frequencies in different populations. Among the many populations studied, the Ashkenazi Jewish have been the subject of several scientific publications due to the greater proportion of genetic diseases observed than would be expected for any other population. This effect probably stands from the fact that they had suffered two major bottlenecks throughout its history, resulting in a founder effect that would be responsible for high incidence of genetic diseases. TP53 gene has an important role in many cellular processes and the Arg72Pro (R72P) polymorphism of this gene leads to functional differences in biochemical and biological activities, which seems to be closely linked to breast cancer. It is also believed that the genetic variation of genes for methylenetetrahydrofolate reductase (MTHFR), an essential enzyme of the one-carbon metabolism, can alter levels of DNA methylation and influence carcinogenesis. We sought to determine how prevalent are R72P and MTHFR (C677T; A1298C) polymorphisms in a group of Ashkenazi Jewish women from Porto Alegre. For this, we used biological material from 255 Ashkenazi women living in Porto Alegre and 255 samples from a control group of healthy donors of Hospital de Clinicas de Porto Alegre, for amplification of interest regions by PCR followed by digestion with specific restriction enzymes. The R72P polymorphism showed a genotype frequency of ~ 61% Arg / Arg, ~ 37% Arg / Pro and ~ 2% Pro / Pro in the Ashkenazi Jewish, compared to the control sample which showed a genotype frequency of ~ 43% Arg /Arg, Arg ~ 44% / 13% Pro and Pro / Pro. Regarding the MTHFR polymorphisms we obtained the following results for Jewish and controls, respectively: 677CC (31 and 42%), 677CT (47 and 48%), 677TT (22 and 10%), 1298AA (49.4 and 60%), 1298AC (43.1 and 35%) and 1298CC (7.5 and 5%). The statistical results were significant for allele and genotype frequencies (P <0.001 for R72P, P = 0.000 for C677T and A1298C to P = 0.041). Increasing the sample number and studying several worldwide populations is needed to consistently evaluate the influence of ethnic and racial differences which may affect the results obtained. In addition to that, aspects such as diet, smoking, drinking, consanguineous marriages, among others, should be considered in the data analysis in order to seek for a better response to the hypotheses raised, thus eliminating possible confounding factors.

Genes p53

Polimorfismo genético

Judeus

Mulheres

Doenças genéticas inatas

Neoplasias da mama

TP53

MTHFR

Breast cancer

Ashkenazi Jewish

The Story of the Jews in Mexico

Kogan Zajdman, Joshua

11 May 2018

No description available.

History

Judaic Studies

Latin American History

Religion

Judaism

Mexico

History

Jewish History

Latin American History

Colonial Era

The Porfiriato

Mexican History

Jewish Immigration

Ashkenazi Jews

Sephardi Jews

Halabi Jews

Shami Jews

The Human Y chromosome and its role in the developing male nervous system

Johansson, Martin M.

January 2015

Recent research demonstrated that besides a role in sex determination and male fertility, the Y chromosome is involved in additional functions including prostate cancer, sex-specific effects on the brain and behaviour, graft-versus-host disease, nociception, aggression and autoimmune diseases. The results presented in this thesis include an analysis of sex-biased genes encoded on the X and Y chromosomes of rodents. Expression data from six different somatic tissues was analyzed and we found that the X chromosome is enriched in female biased genes and depleted of male biased ones. The second study described copy number variation (CNV) patterns in a world-wide collection of human Y chromosome samples. Contrary to expectations, duplications and not deletions were the most frequent variations. We also discovered novel CNV patterns of which some were significantly overrepresented in specific haplogroups. A substantial part of the thesis focuses on analysis of spatial expression of two Y-encoded brain-specific genes, namely PCDH11Y and NLGN4Y. The perhaps most surprising discovery was the observation that X and Y transcripts of both gene pairs are mostly expressed in different cells in human spinal cord and medulla oblongata. Also, we detected spatial expression differences for the PCDH11X gene in spinal cord. The main focus of the spatial investigations was to uncover genetically coded sexual differences in expression during early development of human central nervous system (CNS). Also, investigations of the expression profiles for 13 X and Y homolog gene pairs in human CNS, adult brain, testes and still-born chimpanzee brain samples were included. Contrary to previous studies, we found only three X-encoded genes from the 13 X/Y homologous gene pairs studied that exhibit female-bias. We also describe six novel non-coding RNAs encoded in the human MSY, some of which are polyadenylated and with conserved expression in chimpanzee brain. The description of dimorphic cellular expression patterns of X- and Y-linked genes should boost the interest in the human specific gene PCDH11Y, and draw attention to other Y-encoded genes expressed in the brain during development. This may help to elucidate the role of the Y chromosome in sex differences during early CNS development in humans. / <p>chinese, finnish, norwegian, schizophrenia, bipolar, bipolar disorder, msy, male specific region Y, PAR1, PAR2, pseudoautosomal, male-biased, female-biased, male biased, female biased, ashkenazi population, structure, variants, YHRD, Elena Jazin, Björn Reinius, Per Ahlberg, brain, hjärna, CNS, central nervous system, IR2, inverted repeat 2, isodicentric, genetics, genetik, padlock, rolling circle, amplification, PCR, sY1191, sY1291, STS, DDX3Y, DAZ, AZFa, AZFb, AZFc, AZF, Repping, haplogroup J, rearrangements, DE-M145, I-M170, E-M96, Q-M242, R-M207, O-M175, G-M201, D-M174, C-M130, NO-M214, N-M231, poland</p>

MSY

sex differences

CNV

SNP

palindrome

palindromes

gr/gr duplication

gr/gr deletion

b2/b3 deletion

b2/b3 duplication

blue-grey duplication

blue-grey like duplication

IR2

U3

STS

AZFa

AZFb

AZFc

Olivary nucleus

Medulla oblongata

spinal cord

white matter

Affymetrix 6.0

embryo

embryonal

haplogroup

haplogroups

R1a

R1b

R-M207

E-M96

I-M170

J-M304

G-M201

Ashkenazi

Bolivian

Chinese

SNP array

padlock probing

AMY-tree