Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants

Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants

Aim. To evaluate a possible involvement of the F2, F5, MTHFR gene variants into ischemic stroke pathogenesis in population of Ukraine. Methods. Polymorphic variants were analyzed in unrelated 183 stroke patients, 100 individuals from the general population of Ukraine and 88 healthy individuals elder...

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Дата:2010
Автори: Tatarskyy, P.F., Kucherenko, A.M., Kravchenko, S.A., Shulzhenko, D.V., Kuznetsova, S.M., Livshits, L.A.
Формат: Стаття
Мова:English
Опубліковано: Інститут молекулярної біології і генетики НАН України 2010
Назва видання:Вiopolymers and Cell
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Biomedicine
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Цитувати:Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants / P.F. Tatarskyy, A.M. Kucherenko, S.A. Kravchenko, D.V. Shulzhenko, S.M. Kuznetsova, L.A. Livshits // Вiopolymers and Cell. — 2010. — Т. 26, № 4. — С. 299-305. — Бібліогр.: 30 назв. — англ.

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spelling nasplib_isofts_kiev_ua-123456789-1541362025-02-09T20:44:59Z Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants Ішемічний інсульт серед населення України: можливе залучення поліморфних варіантів генів F2 G20210A, F5 G1691A та MTHFR C677T Ишемический инсульт среди населения Украины: возможное вовлечение полиморфных вариантов генов F2 G20210A, F5 G1691A и MTHFR C677T Tatarskyy, P.F. Kucherenko, A.M. Kravchenko, S.A. Shulzhenko, D.V. Kuznetsova, S.M. Livshits, L.A. Biomedicine Aim. To evaluate a possible involvement of the F2, F5, MTHFR gene variants into ischemic stroke pathogenesis in population of Ukraine. Methods. Polymorphic variants were analyzed in unrelated 183 stroke patients, 100 individuals from the general population of Ukraine and 88 healthy individuals elder than 65 years using PCR followed by RFLP analysis. Results. Unfavourable polymorphic variants F2 20210A, F5 1691A and MTHFR 677T were observed more frequently in patients with ischemic stroke comparing to control groups. Conclusions. F5 1691A and MTHFR 677T polymorphic variants are associated with the occurrence of ischemic stroke in women. F2 20210A is associated with the occurrence of ischemic stroke in men. Cumulative risk factor for stroke development is revealed in a combination of unfavorable polymorphic variants 20210A, 1691A and 677T of F2, F5 and MTHFR genes. Мета. Провести аналіз зв’язку поліморфнних варіантів генів F2, F5, MTHFR та патогенезу інсульту серед населення України. Методи. Алельні варіанти визначали серед 183 неспоріднених пацієнтів з інсультом, 100 індивідуумів із загальної популяції та 88 – здорових індивідуумів старших 65 років, методом ПЛР та ПДРФ-аналізу. Результати. «Несприятливі» поліморфні варіанти F2 20210A, F5 1691A та MTHFR 677T спостерігалися частіше серед пацієнтів з ішемічним інсультом порівняно з контрольними групами. Висновки. Поліморфні варіанти F5 1691A та MTHFR 677Т асоційовані з випадками ішемічного інсульту у жінок, варіант F2 20210A – з випадками ішемічного інсульту у чоловіків. Комбінація виявлених мутантних варіантів 1691А, 20210А і 677T генів F5, F2 і MTHFR проявляється як адитивний фактор ризику виникнення инсульту. Цель. Провести анализ ассоциации полиморфных вариантов генов F2, F5, MTHFR и патогенеза инсульта среди населения Украины. Методы. Аллельные варианты анализировали среди 183 неродственных пациентов с инсультом, 100 индивидуумов из общей популяции Украины и 88 здоровых индивидуумов старше 65 лет методами ПЦР и ПДРФ-анализа. Результаты. «Неблагоприятные» полиморфные варианты F2 20210A, F5 1691A и MTHFR 677T выявлялись чаще у пациентов с ишемическим инсультом по сравнению с контрольными группами. Выводы. Полиморфные варианты F5 1691A и MTHFR 677Т ассоциированы со случаями ишемического инсульта у женщин, вариант F2 20210A – со случаями ишемического инсульта у мужчин. Комбинации выявленных мутантных вариантов 1691А, 20210А и 677T генов F5, F2 и MTHFR проявляются как аддитивный фактор риска возникновения инсульта. 2010 Article Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants / P.F. Tatarskyy, A.M. Kucherenko, S.A. Kravchenko, D.V. Shulzhenko, S.M. Kuznetsova, L.A. Livshits // Вiopolymers and Cell. — 2010. — Т. 26, № 4. — С. 299-305. — Бібліогр.: 30 назв. — англ. 0233-7657 DOI: http://dx.doi.org/10.7124/bc.000163 https://nasplib.isofts.kiev.ua/handle/123456789/154136 575.11 + 577.21 en Вiopolymers and Cell application/pdf Інститут молекулярної біології і генетики НАН України
institution Digital Library of Periodicals of National Academy of Sciences of Ukraine
collection DSpace DC
language English
topic Biomedicine
Biomedicine
spellingShingle Biomedicine
Biomedicine
Tatarskyy, P.F.
Kucherenko, A.M.
Kravchenko, S.A.
Shulzhenko, D.V.
Kuznetsova, S.M.
Livshits, L.A.
Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants
Вiopolymers and Cell
description Aim. To evaluate a possible involvement of the F2, F5, MTHFR gene variants into ischemic stroke pathogenesis in population of Ukraine. Methods. Polymorphic variants were analyzed in unrelated 183 stroke patients, 100 individuals from the general population of Ukraine and 88 healthy individuals elder than 65 years using PCR followed by RFLP analysis. Results. Unfavourable polymorphic variants F2 20210A, F5 1691A and MTHFR 677T were observed more frequently in patients with ischemic stroke comparing to control groups. Conclusions. F5 1691A and MTHFR 677T polymorphic variants are associated with the occurrence of ischemic stroke in women. F2 20210A is associated with the occurrence of ischemic stroke in men. Cumulative risk factor for stroke development is revealed in a combination of unfavorable polymorphic variants 20210A, 1691A and 677T of F2, F5 and MTHFR genes.
format Article
author Tatarskyy, P.F.
Kucherenko, A.M.
Kravchenko, S.A.
Shulzhenko, D.V.
Kuznetsova, S.M.
Livshits, L.A.
author_facet Tatarskyy, P.F.
Kucherenko, A.M.
Kravchenko, S.A.
Shulzhenko, D.V.
Kuznetsova, S.M.
Livshits, L.A.
author_sort Tatarskyy, P.F.
title Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants
title_short Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants
title_full Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants
title_fullStr Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants
title_full_unstemmed Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants
title_sort ischemic stroke in ukrainian population: possible involvement of the f2 g20210a, f5 g1691a and mthfr c677t gene variants
publisher Інститут молекулярної біології і генетики НАН України
publishDate 2010
topic_facet Biomedicine
url https://nasplib.isofts.kiev.ua/handle/123456789/154136
citation_txt Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants / P.F. Tatarskyy, A.M. Kucherenko, S.A. Kravchenko, D.V. Shulzhenko, S.M. Kuznetsova, L.A. Livshits // Вiopolymers and Cell. — 2010. — Т. 26, № 4. — С. 299-305. — Бібліогр.: 30 назв. — англ.
series Вiopolymers and Cell
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first_indexed 2025-11-30T14:49:31Z
last_indexed 2025-11-30T14:49:31Z
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fulltext BIOMEDICINE Ischemic stroke in Ukrainian population: possible involvement of the F2 G20210A, F5 G1691A and MTHFR C677T gene variants P. F. Tatarskyy1, 3, A. M. Kucherenko 1, 3, S. A. Kravchenko1, D. V. Shulzenko2, S. M. Kuznetsova2, L. A. Livshits1 1Institute of Molecular Biology and Genetics National Academy of Sciences of Ukraine 150, Akademika Zabolotnogo Str., Kyiv, Ukraine, 03680 2Gerontology Institute of the Academy of Medical Sciences of Ukraine 67, Vyshgorodska Str., Kyiv, Ukraine, 04114 3National Taras Shevchenko University of Kyiv 64, Volodymyrska Str., Kyiv, Ukraine, 01033 tatarskyy@yahoo.com Aim. To evaluate a possible involvement of the F2, F5, MTHFR gene variants into ischemic stroke patho- genesis in population of Ukraine. Methods. Polymorphic variants were analyzed in unrelated 183 stroke patients, 100 individuals from the general population of Ukraine and 88 healthy individuals elder than 65 years using PCR followed by RFLP analysis. Results. Unfavourable polymorphic variants F2 20210A, F5 1691A and MTHFR 677T were observed more frequently in patients with ischemic stroke comparing to con- trol groups. Conclusions. F5 1691A and MTHFR 677T polymorphic variants are associated with the oc- currence of ischemic stroke in women. F2 20210A is associated with the occurrence of ischemic stroke in men. Cumulative risk factor for stroke development is revealed in a combination of unfavorable polymor- phic variants 20210A, 1691A and 677T of F2, F5 and MTHFR genes. Keywords: Factor V Leiden (F5 G1691A) gene, prothrombin (F2 G20210A) gene, methylenetetrahydrofo- late reductase (MTHFR C677T) gene, ischemic stroke, combined genotype. Introduction. Nowadays, stroke is one of the main causes of invalidization and mortality in the developed countries, being a crucial medical and social problem [1–8]. Stroke is defined as rapidly developing clinical signs of focal (or global) disturbance of cerebral func- tion with symptoms, lasting 24 h or longer or leading to death, with no apparent cause other than of vascular origin [3]. Stroke is considered to be a complex poly- genic disorder arising from a wide number of gene– gene and gene–environment interactions. Since the ad- vent of molecular genetics in medicine it has been a fo- cus of interest to clarify a role of mutations in various candidate genes and their impact on stroke develop- ment. A series of studies have been carried out to ex- plain possible mechanisms of this ischemic event. The results of the study are not entirely consistent, but the majority of the data support the concept that thrombo- sis is important for ischemic stroke development [1–6]. The factor V (F5 G1691A) Leiden and G20210A variant of the prothrombin (F2) gene are clotting fac- tor mutations that are associated with an increased 299 ISSN 0233-7657. Biopolymers and Cell. 2010. Vol. 26. N 4 Ó Institute of Molecular Biology and Genetics NAS of Ukraine, 2010 tendency toward venous thrombosis [1, 4]. The eviden- ce of a role for these gene variants in the risk of ische- mic stroke is controversial [1, 4, 6]. The G to A transition at nucleotide position 20210 in the 3'-untranslated region of F2 gene plays a regu- latory role in the gene expression [1, 5, 6, 9]. Pro- thrombin has procoagulant, anticoagulant and antifib- rinolytic activities, and thus a disorder involving pro- thrombin results in hemostasis multiple imbalances [1, 5]. The F2 G20210A gene mutation is associated with an elevated risk of deep vein thrombosis and con- sequently ischemic stroke [1, 6]. The point mutation of factor V (F5 G1691A) leads to the structural change in the factor V molecule and makes it less susceptible to inactivation by activated protein C (APC) [7], resulting in a hypercoagulable state when more factor Va is available within the pro- thrombinase complex, thereby increasing the genera- tion of thrombin leading to thrombosis and, therefore, ischemic stroke [1, 4, 6–8]. Hyperhomoñysteinemia has been documented as an independent risk factor for stroke [1, 4]. The most common form of genetic hyperhomocysteinemia re- sults from production of a thermolabile variant of me- thylenetetrahydrofolate reductase with reduced en- zymatic activity caused by C677T substitution in the MTHFR gene [1, 4]. Moderate elevation of homocys- teine in the plasma is an established risk factor in the development of ischemic stroke and venous throm- bosis due to its toxic influence on the endothelium. Concerning the connection of C677T MTHFR and a risk of stroke, the results are conflicting as well [1, 4]. The aim of this study was to evaluate a possible involvement of the F2 G20210A, F5 G1691A, MTHFR C677T gene variants into stroke pathogenesis. Materials and methods. Study subjects. Unrelated individuals who were randomly selected between 2008 and 2009 from different regions of Ukraine were inclu- ded in this study. An informed consent was obtained from each participant prior to blood collection and DNA extraction. This study was approved by the Ethical Committee of the Institute of Molecular Biology and Genetics of the National Academy of Sciences of Ukraine and by state institution «Institute of Gerontology of the Acade- my of Medical Sciences of Ukraine». A case group included 183 patients (men – 95, wo- men – 88), who have survived after ischemic stroke and were referred for rehabilitation. The patients were do- cumented according to a standardized protocol com- prising the following information: vascular risk factors including hypertension, diabetes, cigarette smoking, body mass index, medical history including general medical diseases (e. g. previous cardiac, neurological, oncological diseases) and previous medication with particular reference to vascular diseases (TIA/stroke, venous thrombosis); laboratory and instrumental in- vestigations including carotid and vertebral ultraso- und, electroencephalography, echocardiography, MRI or CT; stroke cause and stroke severity as measured by validated scales. A control group I consisted of 100 in- dividuals from the general population of Ukraine (men – 50, women – 50). A control group II included 88 healthy individuals elder then 65 years (men – 35, women – 53) without any history of ischemic stroke. No significant difference between the age of men and women within each group was observed. Genotyping. DNA was extracted from the periphe- ral blood leukocytes by standard phenol-chloroform extraction method [10]. The F2 gene G20210A and F5 gene G1691A allelic variants were identified by multi- plex polymerase chain reaction (PCR) with the use of specific oligonucleotide primers followed by MnlI rest- riction enzyme digestion, as described by Koksal et al., 2006 [11]. The MTHFR gene C677T allele was detected by PCR with the use of specific oligonucleotide primers followed by HinfI restriction enzyme digestion, as des- cribed by Michael et al., 2008 [12]. Electrophoresis of the PCR products was perfor- med in a 1.8 % agarose gel. PCR products 169, 221 and 294 bp long correspondently were digested and run on 7 % PAGE, the gels were stained with EtBr followed by visualization under UV. Statistical analysis. The statistical analyses were performed using MDR, Genepop and Arlequin soft- wares [13–15]. Differences were considered signifi- cant at P < 0.05 value of Fisher exact test. Results and discussion. Because we included individuals who have survived after ischemic stroke only, one could argue that this could have led to pre- judiced results. Case fatality in stroke largely depends 300 TATARSKYY P. F. ET AL. on age, 88 % of all deaths from stroke occurring in people older than 65 years [4]. The average age between the groups was signi- ficantly different. In the control group II the individuals average age (73.9 ± 6.4) was higher than in the case group (64.6 ± 9.1), on the other hand, the average age of individuals in the control group I (30.2 ± 7.6) was lower than in the other groups. To clarify a possible involvement of the F2 G20210A, F5 G1691A, MTHFR C677T in stroke the analysis of above mentioned SNPs was performed. Genotypes and allele frequencies of the three polymor- phisms are presented in Table 1. After the molecular-genetical analysis we have es- tablished that the F2 20210A carriers frequency in the case group was 4.4 %, and in the control group II such 301 ISCHEMIC STROKE IN UKRAINIAN POPULATION Group Loci Control group I n = 100 Men n = 50 Women n = 50 Control group I² n = 88 Men n = 35 Women n = 53 Case group n = 183 Men n = 95 Women n = 88 F5 G1691A Genotype, n (%) GG 98 (98) 50 (100) 48 (96) 85 (96.6) 35 (100) 50 (94.3) 177 (96.7) 94 (98.9) 83 (94.3) GA 2 (2) 0 (0) 2 (4) 2 (2.3) 0 (0) 2 (3.8) 6 (3.3) 1 (1.1) 5 (5.7) AA 0 (0) 0 (0) 0 (0) 1 (1.1) 0 (0) 1 (1.9) 0 (0) 0 (0) 0 (0) Allele, n (%) G 198 (99) 100 (100) 98 (98) 172 (97.7) 70 (100) 102 (96.2) 360 (98.4) 189 (99.5) 171 (97.2) À 2 (1) 0 (0) 2 (2) 4 (2.3) 0 (0) 4 (3.8) 6 (1.6) 1 (0.5) 5(2.8) F2 G20210A Genotype, n (%) GG 97 (97) 48 (96) 49 (98) 88 (100) 35 (100) 53 (100) 175 (95.6) 88 (92.6) 87 (98.9) GA 3 (3) 2 (4) 1 (2) 0 (0) 0 (0) 0 (0) 8 (4.4)** 7 (7.4) 1 (1.1) AA 0 (0) 0 (0) 0 (0) 0 (0) 0 (0) 0 (0) 0 (0) 0 (0) 0 (0) Allele, n (%) G 197 (98.5) 98 (98) 99 (99) 176 (100.0) 70 (100) 106 (100) 358 (97.8) 183 (96.3) 175 (99.4) À 3 (1.5) 2 (2) 1 (1) 0 (0.0) 0 (0) 0 (0) 8 (2.2) 7 (3.7) 1 (0.6) MTHFR C677T Genotype, n (%) CC 50 (50) 23 (46) 27 (54) 44 (50) 13 (37.1) 31 (58.5) 73 (39.9) 33 (34.7) 40 (45.5) CT 45 (45) 25 (50) 20 (40) 37 (42) 20 (57.2) 17 (32.1) 87 (47.5) 49 (51.6) 38 (43.1) TT 5 (5) 2 (4) 3 (6) 7 (8) 2 (5.7) 5 (9.4) 23 (12.6)* 13 (13.7) 10 (11.4) CT+ TT 50 (50) 27 (54) 23 (46) 44 (50) 22 (62.9) 22 (41.5) 110 (60.1) 62 (65.3) 48(54.5)** Allele, n (%) C 145 (72.5) 71 (71) 74 (74) 125 (71.0) 46 (65.7) 79 (74.5) 233 (63.7) 115 (60.5) 118 (67) T 55 (27.5) 29 (29) 26 (26) 51 (29.0) 24 (34.3) 27 (25.5) 133 (36.3) 75 (39.5) 58 (33) n – group size; F2: A – 20210A; G – 20210G, F5: A – 1691A; G – 1691G, MTHFR: T – 677T, C – 677C, **Significant at P < 0.05 between case and control group II, *Significant at P < 0.05 between case and control group I. Table 1 Genotype and allele distribution among the study groups carriers were not found. Significant difference was fo- und between the frequency of men and women carriers of the F2 20210A from the case group, men had higher frequency (7.4 %) comparing to women (1.1 %). Simi- lar findings regarding gender specific role of the F2 20210A, as significant risk factor of stroke in men but not in women, were reported previously [6]. We also found the evidence that the FV Leiden mutation is ob- served more frequently in women. A trend toward dif- ference in the distribution of the F5 1691A was found between women (5.7 %) and men (1.1 %) from the case group. We assume that these data, showing the gender- specific prevalence of the F2 20210A and F5 1691A mutations in the case group, suggest that the risk of stroke development for men and women, carrying the F2 20210A and F5 1691A mutations, is unequal. There are extensive epidemiological data showing that pre- menopausal females have reduced risk for cardiovas- cular disease than men of the same age, but the meno- pause initiates a phase of increased risk for cardiovas- cular disease (CVD) [16– 19]. It was shown that endogenous estrogens increase the resistance to activated protein C regardless of the presence of the FVL mutation [6]. At the same time, se- veral beneficial vascular effects of estrogen have been suggested, including modification of the composition of circulating lipoproteins, changes in blood coagula- tion, inhibition of intravascular accumulation of col- lagen, antiproliferative effects on vascular smooth muscle (VSM) cells, and direct vasodilation of blood vessels [20], and there are few reports on cardiac genes regulated by estrogen [21]. With age the estrogen concentration in plasma de- creases, this may explain the enhanced vascular con- traction in aging females. Postmenopausal hypoestro- genism has been suggested to increase arterial vascular tone through a decrease in vasodilator neuropeptides and an increase in vasoconstrictor peptides in the arteri- al wall nerve terminals of the autonomous nervous sys- tem [22]. Progesterone is expressed in both endothelial and vascular smooth muscle cells, stimulates endothelial nitric oxide synthase activity, NO production, and NO- mediated relaxation, the effects of progesterone on vascular relaxation may be tissue specific [19]. The FVL mutation has been shown to further increase the risk of venous thrombosis in oral contraceptive and hormone replacement therapy users [16, 19]. Nevertheless, some evolutionary benefits for fema- les carrying the FVL mutation, which are crucial for successful pregnancy outcome, were described by Go- pel et al. [23], Majerus et al. [24], and Lindqvist et al. [25]. Women, who carry the FVL mutation lose less blood in menstruation, have higher haemoglobin le- vels, and possibly have a lower incidence of life- threatening post-partum haemorrhage [25]. The posi- tive effect on implantation was described [24] and verified in studies, where an improved implantation rate in the ICSI and IVF pregnancies was reported if either the mother or the child carried the FVL mutation [23]. Those benefits for pre-menopausal women be- come a disadvantage with age in post-menopause women with the loss of cardio protective function of estrogens. Androgens have been shown to be important for survival, number of studies have linked androgen defi- ciency to increased mortality in men [26, 27]. Testoste- rone is an anabolic hormone with a wide range of bene- ficial effects on men’s health. Androgen receptors have been identified in the blood vessels of experimental animals and of humans [26]. In number of studies it was [26, 27] noted that testosterone (T) deficiency might contribute to increased risk of CVD. It was found that men older than 25 years old presenting with hypertension had lower total T values [26]. The androgen deficiency was shown to be associated with increased levels of total cholesterol, low-density lipoprotein, increased production of proinflammatory factors, and increased thickness of the arterial wall and contributes to endothelial dysfunction [26, 27]. It was reported that endogenous T levels decline with age. Thus, we suppose that endothelium dysfunction is increased in aging men due to testosterone level decline, so that it can be considered as an independent thrombosis risk factor. The observed higher frequency of the F2 20210A variant in men comparing to women with stroke confirms that the F2 20210A variant might be an additional genetic risk factor of the stroke deve- lopment in men. Furthermore, we have established that, the MTHFR 677T homozygous carrier’s frequency in the case group in our study (12.6 %) was significantly higher than in the control group I (5 %). Genotype frequency 302 TATARSKYY P. F. ET AL. with at least one risk allele of the MTHFR 677T was higher in women from the case group (54.5 %) than in women from the control group II (41.5 %). So, we can assume that carrying the MTHFR 677T, that results in total homocysteine (tHcy) level increase [28–30], is a risk factor for the stroke development in women. As mentioned earlier, endothelium dysfunc- tion is increased due to sex hormones level decline with age. Homocysteine may impair endothelium function by decreasing both the production of vasodilator sub- stances and their bio-availability to smooth muscle cells [30]. The damaged blood vessels endothelium in- creases thrombocyte adhesion and risk of thrombotic event. Many factors are related to circulating tHcy con- centrations [29]. Fasting plasma tHcy concentration is consistently higher in men than in women, and in- creases with age [22, 29]. In addition, homocysteine levels are reported to be lower in pre-menopausal wo- men than in men and post-menopausal women. Be- cause tHcy concentrations are strongly modulated by gender and age, interactions among these factors, folate status and the C677T mutation in the MTHFR gene lo- cus may explain the inconsistent association of this po- lymorphism with the risk of occlusive vascular disease. Changes in sex hormones and tHcy levels seem to have strongly pronounced influence on endothelium dys- function development in women. Thus, carrying the C677T mutation in MTHFR gene may additionally in- crease the risk of endothelium dysfunction, and as a result, the risk of stroke development in women with the 677T allele is higher comparing to men. For revealing a possible cumulative influence of the polymorphic variants G20210A, G1691A and C677T of F2, F5 and MTHFR genes, combined geno- types distribution analysis was performed (tabl. 2). After combined genotypes distribution analysis of the polymorphic variants G20210A, G1691A and C677T of F2, F5 and MTHFR genes, total frequency of unfavorable combined genotypes, which included at least one of the risk alleles of F2 and/or F5 and/or bearing two copies of the MTHFR 677T, was higher in men from the case group (20 %) than in men from the control group II (5.5 %). In women from the case group (56.8 %) frequency of total unfavorable combined genotypes which included at least one of the F2, F5, MTHFR genes risk alleles was higher than in women from the control group II (41.5 %). Therefore, our findings suggest some common trend for interactions of unfavorable combined geno- types in complex disorder development. The genetic factors which are minor or insignificant, when present alone, can exert an additive effect. Certain specific pa- irs of mutations and clinical risk factors in combination might yield significant complex risk factors for ische- mic stroke. Besides the classical clinical risk factors, rapidly increasing knowledge of unfavorable genetic 303 ISCHEMIC STROKE IN UKRAINIAN POPULATION Gender Genotype Case group Control group II F2 F5 MTHFR n % n % Men GG GG CC 32 33.7 13 37.3 Women 38 43.2 31 58.5 Men† GA GG CC 1 1.05 0 0 Women† 0 0 0 0 Men† GG GA CC 0 0 0 0 Women† 2 2.3 0 0 Men GG GG CT 44 46.3 20 57.2 Women† 35 39.8 14 26.4 Men† GA GG CT 5 5.25 0 0 Women† 1 1.1 0 0 Men† GG GA CT 0 0 0 0 Women† 2 2.3 3 5.7 Men† GG GG TT 11 11.6 2 5.5 Women† 9 10.2 5 9.4 Men† GA GG TT 1 1.05 0 0 Women† 0 0 0 0 Men† GG GA TT 1 1.05 0 0 Women† 1 1.1 0 0 Men GA or/and GA or/and TT 19 20* 2 5.5 Women GA or/and GA or/and CT + TT 50 56.8* 22 41.5 n – group size; F2: A – 20210A; G – 20210G, F5: A – 1691A; G – 1691G, MTHFR: T – 677T, C – 677C; † – genotypes, considered as unfavorable; *Significant at P < 0.05. Table 2 Combined genotypes frequencies of the F5 G1691A, F2 G20210A and MTHFR C677T genes variants mutations will permit recognition of a larger popula- tion at high risk of ischemic stroke, and this may lead to more effective prevention. We should point out, that larger case and control groups for verification of the observed interactions in our study in higher significant level are required. Our data show that the polymorphic variant 20210A of F2 gene can be a higher risk factor for the stroke development in men. On the other hand, for wo- men a higher risk factor for the stroke development se- ems to be the polymorphic variant 1691A of F5 gene. We also assume that the polymorphic variant 677T of MTHFR gene can be a genetic predisposition factor for the stroke development in women. Cumulative risk fac- tor for the stroke development is revealed in a combi- nation of unfavorable polymorphic variants 20210A, 1691A and 677T of the F2, F5 and MTHFR genes. The study was supported by the NAS of Ukraine. Ï. Ô. Òà òà ðñüêèé, À. Ì. Êó ÷å ðåí êî, Ñ. À. Êðàâ ÷åí êî, Ä. Â. Øóëü æåí êî, Ñ. Ì. Êóçíºöîâà, Ë. À. ˳âøèöü ²øåì³÷íèé ³íñóëüò ñå ðåä íà ñå ëåí íÿ Óêðà¿ íè: ìîæ ëè âå çà ëó ÷åí íÿ ïîë³ìîð ôíèõ âàð³àíò³â ãåí³â F2 G20210A, F5 G1691A òà MTHFR C677T Ðå çþ ìå Ìåòà. Ïðî âåñ òè àíàë³ç çâ’ÿç êó ïîë³ìîðô ííèõ âàð³àíò³â ãåí³â F2, F5, MTHFR òà ïà òî ãå íå çó ³íñóëü òó ñå ðåä íà ñå ëåí íÿ Óêðà¿- íè. Ìå òî äè. Àëåëüí³ âàð³àíòè âèç íà ÷à ëè ñå ðåä 183 íå ñïîð³äíå - íèõ ïàö³ºíò³â ç ³íñóëü òîì, 100 ³íäèâ³äóóì³â ³ç çà ãàëü íî¿ ïî ïó ëÿ- ö³¿ òà 88 – çäî ðî âèõ ³íäèâ³äóóì³â ñòàð øèõ 65 ðîê³â, ìå òî äîì ÏËÐ òà ÏÄÐÔ-àíàë³çó. Ðå çóëü òà òè. «Íåñ ïðè ÿò ëèâ³» ïîë³ìîð- ôí³ âàð³àíòè F2 20210A, F5 1691A òà MTHFR 677T ñïîñ òåð³ãà - ëè ñÿ ÷àñò³øå ñå ðåä ïàö³ºíò³â ç ³øåì³÷íèì ³íñóëü òîì ïîð³âíÿ íî ç êîí òðîëü íè ìè ãðó ïà ìè. Âèñ íîâ êè. Ïîë³ìîðôí³ âàð³àíòè F5 1691A òà MTHFR 677Ò àñîö³éî âàí³ ç âè ïàä êà ìè ³øåì³÷íî ãî ³í- ñóëü òó ó æ³íîê, âàð³àíò F2 20210A – ç âè ïàä êà ìè ³øåì³÷íî ãî ³íñóëü òó ó ÷î ëîâ³ê³â. Êîìá³íàö³ÿ âè ÿâ ëå íèõ ìó òàí òíèõ âàð³àí- ò³â 1691À, 20210À ³ 677T ãåí³â F5, F2 ³ MTHFR ïðî ÿâ ëÿºòüñÿ ÿê àäè òèâ íèé ôàê òîð ðè çè êó âè íèê íåí íÿ èí ñóëü òó. Êëþ ÷îâ³ ñëî âà: ãåí ôàê òî ðà V Ëåé äåí (F5 G1691A), ãåí ïðî - òðîìá³íó (F2 G20210A), ãåí ìå òè ëåí òåò ðàã³äðî ôî ëàò ðå äóê - òàçè (MTHFR Ñ677Ò), ³øåì³÷íèé ³íñóëüò, êîìá³íî âà íèé ãå íî òèï. Ï. Ô. Òà òàð ñêèé, À. Ì. Êó ÷å ðåí êî, Ñ. À. Êðàâ ÷åí êî, Ä. Â. Øóëü æåí êî, Ñ. Ì. Êó çíeöî âà, Ë. À. Ëèâ øèö Èøå ìè ÷åñ êèé èí ñóëüò ñðå äè íà ñå ëå íèÿ Óêðà è íû: âîç ìîæ íîå âîâ ëå ÷å íèå ïî ëè ìîð ôíûõ âà ðè àí òîâ ãå íîâ F2 G20210A, F5 G1691A è MTHFR C677T Ðå çþ ìå Öåëü. Ïðî âåñ òè àíà ëèç àñ ñî öè à öèè ïî ëè ìîð ôíûõ âà ðè àí òîâ ãå íîâ F2, F5, MTHFR è ïà òî ãå íå çà èí ñóëü òà ñðå äè íà ñå ëå íèÿ Óêðà è íû. Ìå òî äû. Àëëåëüíûå âà ðè àí òû àíà ëè çè ðî âà ëè ñðåäè 183 íå ðî äñòâåí íûõ ïà öè åí òîâ ñ èí ñóëü òîì, 100 èí äè âè äó ó ìîâ èç îá ùåé ïî ïó ëÿ öèè Óêðà è íû è 88 çäî ðî âûõ èí äè âè äó ó ìîâ ñòàð øå 65 ëåò ìå òî äà ìè ÏÖÐ è ÏÄÐÔ-àíà ëè çà. Ðå çóëü òà òû. «Íåá ëà ãîï ðè ÿò íûå» ïî ëè ìîð ôíûå âà ðè àí òû F2 20210A, F5 1691A è MTHFR 677T âû ÿâ ëÿ ëèñü ÷àùå ó ïà öè åí òîâ ñ èøå ìè - ÷åñ êèì èí ñóëü òîì ïî ñðàâ íå íèþ ñ êîí òðîëü íû ìè ãðóï ïà ìè. Âû âî äû. Ïî ëè ìîð ôíûå âà ðè àí òû F5 1691A è MTHFR 677Ò àñ - ñî öè è ðî âà íû ñî ñëó ÷à ÿ ìè èøå ìè ÷åñ êî ãî èí ñóëü òà ó æåí ùèí, âà ðè àíò F2 20210A – ñî ñëó ÷à ÿ ìè èøå ìè ÷åñ êî ãî èí ñóëü òà ó ìóæ ÷èí. Êîì áè íà öèè âû ÿâ ëåí íûõ ìó òàí òíûõ âà ðè àí òîâ 1691À, 20210À è 677T ãå íîâ F5, F2 è MTHFR ïðî ÿâ ëÿ þò ñÿ êàê àä äè òèâ íûé ôàê òîð ðèñ êà âîç íèê íî âå íèÿ èí ñóëü òà. 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