Association between FokI, ApaI and TaqI RFLP polymorphisms in VDR gene and Hashimoto's thyroiditis: preliminary data from female patients in Serbia.

Hashimoto's thyroiditis (HT) is the most prevalent autoimmune thyroid disorder caused by an interaction between genes and environmental triggers. Intrathyroid lymphocytic infiltration may lead to progressive destruction of thyroid tissue and consequently to hypothyroidism. Many studies in different populations have shown association between vitamin D receptor (VDR) gene polymorphisms and various autoimmune diseases, including HT. The study included 44 female patients (mean age ± standard deviation 38 ± 5.4) with Hashimoto's thyroiditis and 32 healthy age-matched, sex-matched and geographically matched controls without personal history of autoimmune and endocrine diseases. Genomic DNA was isolated from peripheral blood-EDTA, and the target VDR gene was genotyped by PCR-RFLP technique after VDR-FokI (rs2228570), VDR-ApaI (rs7975232) and VDR-TaqI (rs731236) restriction enzymes digestion. We used spss 20.0 integrated software for data analysis and found a significant difference in the genotype distribution of VDR-FokI polymorphism between patients with HT and controls (P = 0.009). For ApaI and TaqI, we observed a higher frequency of variant allele in patients with HT, which was not significantly different compared to control women (P > 0.05). The current first and preliminary results identified the association between VDR-FokI gene polymorphism and Hashimoto's thyroiditis in Serbian population. Results need to be supported by further investigations that define haplotype patterns for VDR gene polymorphisms in a larger group of HT patients of both sexes.

CTG repeat polymorphism in DMPK gene in healthy Yugoslav population.

OBJECTIVES: Myotonic dystrophy type 1 (DM1) is caused by large expansions of cytosine-thymine-guanine (CTG)-repeats in myotonic dystrophy protein kinase (DMPK)-gene. This gene is highly polymorphic in healthy individuals. It has been proposed that expanded alleles originated from the group of large sized normal alleles. If this is correct, one should expect a positive correlation between the frequency of large sized normal alleles and a prevalence of this disorder in a population. In this paper we determined the distribution of alleles of DMPK gene in healthy Yugoslav population. MATERIAL AND METHODS: A sample of 235 healthy individuals of Yugoslav origin have been genotyped for the alleles of DMPK locus. RESULTS: We found 22 different alleles, ranging in size from 5 to 29 repeats. Among 470 chromosomes studied, 41 chromosomes had more than 18 repeats (8.72%). CONCLUSIONS: Relatively high frequency of large sized normal alleles found in our population, suggest that prevalence of DM1 in Yugoslavia should not be different from the prevalence in other European populations.

Yugoslav population data on nine STR loci.

Allele frequencies of nine short tandem repeats (TH01, TPOX, CSF1P0, vWA, FES/FPS, F13A01, D13S317, D7S820 and D16S539) were obtained in a sample of 111-125 unrelated Yugoslavs.

Is the 31 CAG repeat allele of the spinocerebellar ataxia 1 (SCA1) gene locus non-specifically associated with trinucleotide expansion diseases?

A number of human hereditary neuromuscular and neurodegenerative disorders are caused by the expansion of trinucleotide repeats within certain genes. The molecular mechanisms that underlie these expansions are not yet known. We have analyzed six trinucleotide repeat-containing loci [spinocerebellar ataxias (SCA1, SCA3, SCA8), dentatorubral-pallidoluysian atrophy (DRPLA), Huntington chorea (HD) and fragile X syndrome (FRAXA)] in myotonic dystrophy type 1 (DM1) patients (n = 52). As controls, we analyzed two groups of subjects: healthy control subjects (n =133), and a group of patients with non-triplet neuromuscular diseases (n = 68) caused by point mutations, deletions or duplications (spinal muscular atrophy, Charcot-Marie-Tooth disease, type 1A, hereditary neuropathy with liability to pressure palsies, and Duchenne and Becker muscular dystrophy). Allele frequency distributions for all tested loci were similar in these three groups with the exception of the SCA1 locus. In DM1 patients, the SCA1 allele with 31 CAG repeats account for 40.4% of all chromosomes tested, which is significantly higher than in two other groups (11.3% in healthy controls and 6.6% in the group of non-triplet diseased patients; P < 0.001, Fisher's exact test). This is consistent with our previous findings in HD patients. The absence of this association in non-triplet diseases as well as in healthy controls could indicate a possible role of this SCA1 allele with 31 repeats in triplet diseases. Here we discuss a possible role of the SCA1 region in pathological trinucleotide repeat expansions.

[Comparison of the number of CAG repeats in the gene for androgen receptors in a control Yugoslav population and in patients with schizophrenia]. / Poredjenje broja CAG-ponovaka u genu za androgeni receptor u kontrolnoj Jugoslovenskoj populacimi i kod bolesnika sa shizofrenijom.

INTRODUCTION: Dynamic mutations were recently discovered causing hereditary non polyposis colon cancer. Soon almost 15 hereditary neurological diseases were described caused by the expansion of trinucleotide repeats in target genes. These mutations are unstable: the number of trinucleotide repeats is increasing from generation to generation. These mutations do not obey Mendelian low. There is a positive correlation between the number of repeats and the severity of clinical symptoms, as well as with the age of onset. This fact explains the genetical basis of anticipation. Since schizophrenia is showing non-Mendelian way of inheritance and anticipation, it is believed that it might be caused by trinucleotide repeats in some gene(s). We analysed the number of CAG triplets in the gene for androgen receptor (AR) where expansions are causing spinal and bulbar muscular atrophy in healthy and schizophrenic subjects. The aim of this study was to see if the androgen receptor gene in schizophrenic patients shows instability in the number of trinucleotide repeats. PATIENTS AND METHODS: In healthy Yugoslav population we analysed 85 X chromosomes from 52 non-related individuals (33 females and 19 males) from healthy Yugoslav population and 84 X chromosomes (41 females and 2 males) from patients with schizophrenia. DNA was isolated from peripheral blood leukocytes and used for further PCR amplification of the segment of AR gene containing CAG repeats. The exact number of these repeats was determined by electrophoresis on a 5% denaturing polyacrilamide gel stained by silver. RESULTS: In healthy Yugoslav population we detected 16 different AR alleles in which the number of CAG triplets was from 14 to 29. The most common alleles were with 23 repeats (14.1%) and with 22 repeats (12.9%). The average number of CAG triplets per allele was 20.91. In patients with schizophrenia we detected 13 AR different alleles. The number of triplets was from 17 to 30. The most common allele was with 22 repeats (25%). The average number of CAG triplets per allele was 22.1.

The status of SCA1, MJD/SCA3, FRDA, DRPLA and MD triplet containing genes in patients with Huntington disease and healthy controls.

A number of human hereditary neuromuscular and neurodegenerative disorders are caused by the expansion of trinucleotide repeats within certain genes. Here we report the results of the analysis of five trinucleotide repeats containing genes (SCA1, MJD/SCA3, DRPLA, FRDA and MD) in HD patients and in a group of healthy controls. Allelic frequency distributions for SCA1 and FRDA genes were shifted toward larger alleles in the group of unrelated HD patients, compared to healthy controls. This linkage disequilibrium suggests a possible existence of a common mechanism of trinucleotide repeats expansion in these loci.

Correlation between triplet repeat expansion and computed tomography measures of caudate nuclei atrophy in Huntington's disease.

Huntington's disease (HD) is an autosomal dominant, progressive disorder characterized by choreic movements, cognitive decline, and psychiatric manifestations. Eleven patients with HD were retrospectively selected from a larger group of 42 patients based on the similar, early onset of the disease (between 21 and 30 years) and the same duration of HD at the moment of computed tomography (CT) examination (5 years). A significant correlation between the number of CAG trinucleotides and the bicaudate index or the frontal horn index, two indices of caudate atrophy, was found in this group of patients. Our results, although in a small number of patients, suggest that the striatal degeneration, assessed by CT measures, is primarily regulated by the size of expanded CAG repeats.

[Importance of the number of trinucleotide repeat expansions in the clinical manifestations of Huntington's chorea]. / Znacaj povecanja broja trinukleotidnih ponovaka za klinicka ispoljavanja Hantigtonove horeje.

INTRODUCTION: In 1993 the gene responsible for Huntington's disease (IT15) was isolated [5]. It was mapped to the tip of the short arm of chromosome 4 and within its coding sequence, near the 5' end, it contained a certain number of trinicleotide (CAG)n (cytosine-adenine-guanine) repeats (Figure 1). This gene codes for a protein (348 kd) called "huntington" that is widely expressed, and its sequence is not related to any protein [6]. The normal range of (CAG)n repeat numbers within IT15 was reported to be between 6 and 37 [6]. Mutation responsible for Huntington's disease implied expansion of (CAG)n repeats: in patients with Huntington's disease the pathologic range was determined to be between 35 and 121 repeats [7-10]. PATIENTS AND METHODS: In this study we correlated the age at onset, rate of progression and initial symptoms of Huntington's disease with the number of trinucleotide (CAG)n repeats in IT15. DNA was isolated from peripheral blood leukocytes of patients fulfilling clinical criteria for definite and probable Huntington's disease [2]. Genetic verification of Huntington's disease was made by the previously described and modified PRC (polymerase chain reaction) technique [17, 18]. In our laboratory a gene with 40 or more repeats was considered as a marker of Huntington's disease. RESULTS: The study comprised 26 patients (11 women and 15 men). At the onset of Huntington's disease they were between 19 and 66 years old (36.6 12.8 years), with the duration of the disease between 1 and 15 years (5.8 4.3 years). The number of (CAG)n, repeats in IT15 ranged between 40 and 95 (49.9 14.1). The negative correlation between the (CAG)n, count in the expanded allele and the age at onset of the disease has been confirmed. Regression analysis showed the correlation coefficient of -0.54 (p = 0.012). The effect of trinucleotide (CAG)n, repeats on the initial clinical manifestations and rate of progression of Huntington's disease is only one of the growing group of "CAG-repeat" disorders that also include entities such as spinocerebellar ataxia-type 1 and 3, spinobulbar muscular atrophy and dentato-rubo-pallidoluysian atrophy [6].

LABORATORY EVOLUTION OF LIFE-HISTORY TRAITS IN THE BEAN WEEVIL (ACANTHOSCELIDES OBTECTUS): THE EFFECTS OF SELECTION ON DEVELOPMENTAL TIME IN POPULATIONS WITH DIFFERENT PREVIOUS HISTORY.

In this study we examined the direct and correlated responses for fast and slow preadult development time in three laboratory populations of the bean weevil (Acanthoscelides obtectus). The first population ("base," B) has experienced laboratory conditions for more than 10 years; the second ("young," Y) and the third ("old," O) populations were selected for early and late reproduction, respectively, before the onset of the present experiments. All three populations are successfully selected for both fast and slow preadult development. The realized heritabilities are very similar in all populations, suggesting a similar level of the additive genetic variance for preadult development. We studied the correlated responses on the following life-history traits: egg-to-adult viability, wet body weight, early fecundity, late fecundity, total realized female fecundity, and adult longevity. All life-history traits examined here, except for the egg-to-adult viability, are affected by selection for preadult development in at least in one of the studied populations. In all three populations, beetles selected for slow preadult development are heavier and live longer than those from the fast-selected lines. The findings with respect to adult longevity are unexpected, because the control Y and O populations, selected for short- and long-lived beetles, respectively, do not show significant differences in preadult development. Thus, our results indicate that some kind of asymmetrical correlated responses occur for preadult development and adult longevity each time that direct selection has been imposed on one or the other of these two traits. In contrast to studies with Drosophila, it appears that for insect species that are aphagous as adults, selection for preadult development entails selection for alleles that also change the adult longevity, but that age-specific selection (applied in the Y and O populations) mostly affects the alleles that have no significant influence on the preadult development. Implications of these findings on the developmental and evolutionary theories of aging are also discussed.