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Použití bakteriálních složek v prevenci a léčbě experimentálního střevního zánětu / Bacterial components in experimental intestinal inflammation prevention and therapyKverka, Miloslav January 2011 (has links)
Although strong protective immune response is essential for preventing invasion by pathogens, equivalent responses against antigens originating from commensal bacteria can lead to chronic inflammatory diseases, such as inflammatory bowel disease (IBD). Manipulating the mucosal immune responses with microbial antigens might be an excellent tool to IBD therapy or prevention. Our aim was to gain some insight into the regulation of the intestinal inflammation and to isolate bacterial immunomodulatory components that could be used in intestinal inflammation therapy and prevention. One particular mechanism of how healthy colon tissue regulates the inflammation during acute experimental colitis is through modulation of bioavailability of glucocorticoids (GCs) in gut mucosa. Here, we show that intestinal inflammation changes the local GC metabolism, which ultimately leads to decrease in inflammatory readiness of cells in the gut mucosa and in mesenteric lymph nodes. This pre-receptor regulation of GC function could represent an important homeostatic function of the gut mucosa. The actual triggers of intestinal inflammation in IBD seem to be either microbial dysbiosis or microbes with special "pathogenic" abilities, which both could be rectified by feeding with probiotics. Here, we report that oral feeding with live...
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Použití bakteriálních složek v prevenci a léčbě experimentálního střevního zánětu / Bacterial components in experimental intestinal inflammation prevention and therapyKverka, Miloslav January 2011 (has links)
Although strong protective immune response is essential for preventing invasion by pathogens, equivalent responses against antigens originating from commensal bacteria can lead to chronic inflammatory diseases, such as inflammatory bowel disease (IBD). Manipulating the mucosal immune responses with microbial antigens might be an excellent tool to IBD therapy or prevention. Our aim was to gain some insight into the regulation of the intestinal inflammation and to isolate bacterial immunomodulatory components that could be used in intestinal inflammation therapy and prevention. One particular mechanism of how healthy colon tissue regulates the inflammation during acute experimental colitis is through modulation of bioavailability of glucocorticoids (GCs) in gut mucosa. Here, we show that intestinal inflammation changes the local GC metabolism, which ultimately leads to decrease in inflammatory readiness of cells in the gut mucosa and in mesenteric lymph nodes. This pre-receptor regulation of GC function could represent an important homeostatic function of the gut mucosa. The actual triggers of intestinal inflammation in IBD seem to be either microbial dysbiosis or microbes with special "pathogenic" abilities, which both could be rectified by feeding with probiotics. Here, we report that oral feeding with live...
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Personality and the HPA-axis in Association with Postpartum DepressionIliadis, Stavros I January 2016 (has links)
Postpartum depression is a psychiatric disorder affecting a substantial proportion of newly delivered women, and remains a significant cause of childbirth-related morbidity. The aim of the present thesis was to examine psychological, endocrine and genetic aspects of postpartum depression in a large, population-based sample of women in Uppsala, Sweden. All included studies were undertaken as parts of the BASIC-project, a longitudinal study on psychological wellbeing during pregnancy and the postpartum period. Study participants were screened for depressive symptoms in pregnancy week 17 and 32 as well as at six weeks and six months postpartum, mainly by use of the Swedish version of the Edinburgh Postnatal Depression Scale (EPDS). Furthermore, personality was assessed with the Swedish universities Scale of Personality (SSP) in pregnancy week 32. Evening cortisol levels in saliva were measured in pregnancy week 36 and at six weeks postpartum. Blood samples were obtained to measure corticotropin-releasing hormone levels (CRH) and to perform genetic analyses. The results of this thesis demonstrate that neuroticism is a strong and independent predictive factor of depressive symptoms at six weeks and six months postpartum, and has a significant mediatory role in the association between a single nucleotide polymorphism in the hydroxysteroid (11-beta) dehydrogenase 1 gene (HSD11B1) and postpartum depression. Furthermore, women with postpartum depressive symptoms present with a dysregulated hypothalamic-pituitary-adrenal axis activity in terms of elevated cortisol levels postpartum, as well as elevated CRH levels in mid-gestation. In conclusion, this thesis develops current knowledge on several attributes of postpartum depression. Further studies are required to replicate and expand on these results, which would further contribute to early identification of women at risk of postpartum depression and adoption of proper interventions that may moderate the short- and long-term consequences of the disorder.
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Brain function and glucocorticoids in obesity and type 2 diabetes including effects of lifestyle interventions / Effekter av livsstilsförändring på hjärnfunktion och stresshormoner vid fetma och typ 2 diabetesStomby, Andreas January 2015 (has links)
Background Obesity and associated metabolic dysregulation are linked to impaired cognitive function and alterations in brain structure, which increases the risk of age-related dementia. Increased glucocorticoid (GC) exposure may be a potential mediator of these negative effects on the brain. Methods and results In paper 1, we tested the relationship between cortisol levels, brain morphology and cognitive function in 200 women and men. Salivary cortisol levels were negatively related to cortical surface areas in prefrontal brain regions in both sexes. In participants with type 2 diabetes, high salivary cortisol levels were associated with lower memory performance. In paper 2, we tested in 70 overweight women the effects on tissue-specific GC metabolism of a Paleolithic diet or a diet following the Nordic nutrition recommendations. The 24-month interventions led to decreased expression of the GC-activating enzyme 11βHSD1 in adipose tissue, interpreted as a normalization of an obesity-related disturbance in GC metabolism. Furthermore, GC metabolism by 5α-reductase increased substantially after 2 years, an unexpected and novel result. The outcomes did not differ by diet. In paper 3, 20 women included in paper 2 were examined with functional magnetic resonance imaging (fMRI) while performing a memory task at baseline and after 6 months. Memory performance improved and functional brain responses increased in the hippocampus. Once again, the results were similar in both diet groups. In paper 4, 24 overweight participants with type 2 diabetes were examined with fMRI, using the same memory test as in paper 3, at baseline and after 12 weeks of intervention with a Paleolithic diet with or without exercise training. Functional brain response increased in the hippocampus, but memory was not improved. The addition of physical exercise did not alter the results. Conclusion Cortisol levels are linked to prefrontal brain structure and, at least in type 2 diabetes, lower memory performance. Furthermore, the dysregulated GC metabolism in obesity can be reversed by long-term diet- induced weight loss. Finally, dietary interventions with associated metabolic improvements alter functional brain responses during memory testing, including increased activation of the hippocampus. Whether these changes are linked to alterations in GC exposure and mediate improved cognition requires further study.
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Estrogen and Glucocorticoid MetabolismAndersson, Therése January 2010 (has links)
Background: Cardiovascular disease (CVD) is the leading cause of death among women in Sweden. The risk of CVD increases rapidly after the menopause. A major contributing factor may be the redistribution of adipose tissue, from the peripheral to central depots, associated with menopause. This change in body composition is commonly attributed to declining estrogen levels but may also be affected by tissue-specific alterations in exposure to other steroid hormones, notably glucocorticoids – mainly cortisol in humans. Indeed, adipose tissue-specific overexpression of the glucocorticoid-activating enzyme 11β-hydroxysteroid dehydrogenase type 1 (11βHSD1) induces central obesity, insulin resistance and hypertension in mice. Interestingly, estrogen may regulate this enzyme. The aim of this thesis was to investigate putative links between estrogen and glucocorticoid activation by 11βHSD1. Materials and Methods: 11βHSD1 expression and/or activity in adipose tissue and liver, and adipose estrogen receptor α and β (ERα and ERβ) gene expression, were investigated in lean pre- and postmenopausal women and ovariectomized rodents with and without estrogen supplementation. In lean women measures of 11βHSD1 were correlated to risk markers for CVD. The association between adipose 11βHSD1 and ER mRNA expression was investigated in both lean women and rats and in an additional cohort of obese premenopausal women. In vitro experiments with adipocyte cell lines were used to explore possible pathways for estrogen regulation of 11βHSD1. Results: Subcutaneous adipose tissue transcript levels and hepatic activity of 11βHSD1 were higher in postmenopausal vs. premenopausal women. In rodents, estrogen treatment to ovariectomized rats decreased visceral adipose tissue 11βHSD1, resulting in a shift towards higher subcutaneous (vs. visceral) 11βHSD1 mRNA expression/activity. Increased adipose and hepatic 11βHSD1 were associated with increased blood pressure and a disadvantageous blood lipid profile in humans. We found significant positive associations between 11βHSD1 and ERβ transcript levels in adipose tissue. The in vitro experiments showed upregulation of 11βHSD1 mRNA expression and activity with estrogen or ERβ-agonist treatment at low (corresponding to physiological) concentrations. Conclusions: Our studies show for the first time increased local tissue glucocorticoid activation with menopause/age in women. This may contribute to an increased risk of CVD. Estrogen treatment in rodents induces a shift in 11βHSD1 activity towards the subcutaneous adipose tissue depots, which may direct fat accumulation to this metabolically “safer” depot. The in vitro studies suggest that low-dose estrogen treatment upregulates 11βHSD1 via ERβ. In summary, estrogen - glucocorticoid metabolism interactions may be key in the development of menopause-related metabolic dysfunction and in part mediate the beneficial effects of postmenopausal estrogen treatment on body fat distribution.
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Adipose tissue as an active organ : blood flow regulation and tissue-specific glucocorticoid metabolismAndersson, Jonas January 2011 (has links)
Background: Despite advances in the treatment of atherosclerosis, cardiovascular disease is the leading cause of death worldwide. With the population getting older and more obese, the burden of cardiovascular disease may further increase. Premenopausal women are relatively protected against cardiovascular disease compared to men, but the reasons for this sex difference are partly unknown. Redistribution of body fat from peripheral to central depots may be a contributing factor. Central fat is associated with hyperlipidemia, hyperglycemia, hypertension, and insulin resistance. Two possible mediators of these metabolic disturbances are tissue-specific production of the stress hormone cortisol and adipose tissue blood flow (ATBF). The aim of this thesis was to determine the adipose tissue production of cortisol by the enzyme 11β-hydroxysteroid dehydrogenase type 1 (11β-HSD1) and to investigate the regulation of ATBF. Materials and Methods: Cortisol release was estimated by labeled cortisol infusions and tissue-specific catheterizations of subcutaneous and visceral adipose tissue (VAT) in men. We investigated ATBF by 133Xe-washout and its relation to autonomic activity, endothelial function, adipose tissue distribution, and adipokines in different groups of women. We further investigated the effect of two diets and of weight loss on ATBF in women. Results: We demonstrated significant cortisol release from subcutaneous adipose tissue in humans. Splanchnic cortisol release was accounted for entirely by the liver. Cortisol release from VAT (to the portal vein) was not detected. ATBF decreased according to increasing weight and postmenopausal status, and the level of blood flow was associated with nitric oxide (NO) activity and autonomic activity. ATBF was also highly associated with leptin levels and both subcutaneous adipose tissue and VAT areas. After 6 months of diet and weight reduction, a significant difference in ATBF was observed between diet groups. Conclusions: Our data for the first time demonstrate the contributions of cortisol generated from subcutaneous adipose tissue, visceral tissues, and liver by 11β-HSD1. ATBF is linked to autonomic activity, NO activity, and the amount of adipose tissue (independent of fat depot). Postmenopausal overweight women exhibited a loss of ATBF flexibility, which may contribute to the metabolic dysfunction seen in this group. Weight loss in a diet program could not increase the ATBF, although there were ATBF differences between diet groups. The results will increase understanding of adipose tissue biology and contribute to the development of treatment strategies targeting obesity and obesity-related disorders.
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Single Nucleotide Polymorphisms Linked to Essential Hypertension in Kasigau, KenyaFreeman, Julia Carol 01 December 2013 (has links)
Hypertension, or high blood pressure (BP), is an ever-growing epidemic in the developing world. Understanding the genetics behind essential hypertension (EH), or hypertension with no known cause, is especially important. In this study, three single nucleotide polymorphisms (SNPs) known to be linked to an increase in susceptibility to EH were quantified from a cohort of Kenyans living in the Kasigau region. The SNPs are located in three genes that are part of the renin angiotensin system, the primary regulatory pathway in humans controlling BP. They include: AGT (rs699), AGTR1 (rs5186), and HSD11β2 (rs5479). Overall, by using a fluorescent-based RT-PCR technique, the genotype distribution of AGT (rs699) was 0.63 C/C, 0.34 C/T, and 0.03 T/T. When evaluated as normotensive, prehypertensive, Stage I, or Stage II categories the allele frequencies for f(C)= 0.77,0.85,0.81, 0.77, respectively, and demonstrated Hardy Weinberg Equilibrium (HWE) as assessed by Χ2, p < 0.05. The genotype distribution of AGTR1 (rs5186) was 0.96 A/A, 0.03 A/C, and 0.00 C/C and the genotype distribution of HSD11β2 (rs5479) was 0.46 A/A, 0.46 A/C, and 0.08 C/C. The majority of genotype frequencies for each SNP were in HWE, with the exception of the AGT (rs699) SNP found in the sublocation of Bughuta suggesting other evolutionary selective pressures may be at work in this subpopulation. The high prevalence of the susceptible C allele for AGT (rs699) likely implies it is a critical factor in the high prevalence of EH observed in this population.
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Prenatal glucocorticoid programming of 11-beta hydroxysteroid dehydrogenase type 2 and erythropoietin in the kidneyTang, Justin I-Shing January 2011 (has links)
Numerous epidemiological studies show a strong association between low birth weight and later life hypertension and metabolic disease. Excessive in utero exposure to glucocorticoids (‘stress hormones’) has been hypothesized to be important in such developmental ‘programming’, acting via crucial physiological, gene expression or structural changes in the developing fetus. Normally, the fetus is protected from the high levels of maternal glucocorticoids by an enzymic placental barrier, 11 betahydroxysteroid dehydrogenase type 2 (11β-HSD2). In the placenta, 11β-HSD2 efficiently converts active maternal glucocorticoids (cortisol in humans; corticosterone in rodents) to physiologically inactive 11-keto forms. In previous studies in rats, maternal administration of dexamethasone, a synthetic glucocorticoid which is minimally metabolized by 11β-HSD2, or carbenoxolone, a potent inhibitor of 11 β-hydroxysteroid dehydrogenase, increased glucocorticoid load to the fetus. This resulted in lower offspring birthweight and later life hypertension and hyperglycemia — important components of the metabolic syndrome. These programming effects were seen when dexamethasone was administered selectively during the third week of gestation. We have used this well-validated model of programming to dissect the molecular mechanisms that mediate the programming of hypertension. In accord with previous observations, administration of dexamethasone (100μg/kg/day) to pregnant rats during the last week of pregnancy significantly reduced offspring birthweight by 10%. Moreover, the 9 month-old adult offspring had systolic hypertension (9% rise) accompanied by significant hypokalemia (10% fall K+). The coexistence of hypertension and hypokalemia suggested that prenatal overexposure to dexamethasone might increase mineralocorticoid activity in the kidney. Intriguingly, although offspring of dexamethasone-treated dams had 46% lower plasma renin concentrations (consistent with intravascular fluid volume expansion), 24-hour total urinary aldosterone levels were significantly reduced compared to controls (reduction of 56%). Maternal dexamethasone treatment was associated with a permanent decrease in 11β- HSD2 mRNA and activity in the kidney of the offspring (45% and 36% respectively). 11β-HSD2 plays an important role in regulation of renal sodium reabsorption (and thereby blood pressure) by acting as a pre-receptor barrier to MR access, preventing glucocorticoids from activating MR in the distal nephron. Thus, the decrease in renal 11β-HSD2 activity would allow greater endogenous glucocorticoids to activate MR, likely accounting for the low-renin, low-aldosterone hypokalemic hypertensive phenotype observed in these offspring. Other components of mineralocorticoid or glucocorticoid signaling pathways, including mineralocorticoid receptor (MR), glucocorticoid receptor (GR) and 11-beta hydroxysteroid dehydrogenase type 1 (11β-HSD1) were not altered in the offspring kidney by prenatal glucocorticoid exposure. Dexamethasone-programmed offspring also showed exaggerated mineralocorticoid activity with increased kalliuresis in response to exogenously administered corticosterone, suggesting that the decrease in renal 11β-HSD2 is functionally important. In this respect, our rat model resembles the syndrome of apparent mineralocorticoid excess where reduced 11β-HSD2 allows illicit activation of MR by glucocorticoids, resulting in excessive sodium reabsorption, hypertension and hypokalemia. We also studied the effects of maternal dexamethasone on offspring erythropoietin expression in the kidney. This followed from previous observations that identified the hepatocyte nuclear factor 4 alpha (HNF4α) as a key gene up-regulated in dexamethasone-programmed offspring liver, where it might be involved in mediating hyperglycemia. HNF4α is also expressed in the kidney. The role of HNF4α in the kidney is not fully understood, but has been implicated in regulation of erythropoietin synthesis. As in the liver, prenatal exposure to dexamethasone caused a significant increase (64% increase) in renal HNF4α expression. The increase in renal HNF4α mRNA was observed early (in one week old offspring) and persisted into adulthood. This was associated with significantly elevated levels of erythropoietin in circulation (110% increase). Moreover, animals that were exposed to prenatal dexamethasone had significantly increased red blood cell mass (7% increase), presumably as a result of upregulation of erythropoietin.
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Estudo da associação entre polimorfismos do gene do receptor de vitamina D (VDR) e do SNP-71 A/G do gene 17 beta- hidroxiesteróide desidrogenase tipo 5 (HSD17B5) e variáveis clínicas, hormonais e metabólicas em pacientes com pubarca precoce e controlesSantos, Betânia Rodrigues dos January 2011 (has links)
A pubarca precoce (PP) é definida como o desenvolvimento de pêlos pubianos antes dos 8 anos de idade em meninas e 9 anos de idade em meninos. Embora a PP não interfira diretamente com os eventos da puberdade, algumas evidências sugerem que estas meninas tenham maior risco para desenvolver, mais tarde, a Síndrome dos Ovários Policísticos (PCOS). A 17ß-hidroxiesteróide desidrogenase tipo 5 (17ßHSD5) é a principal responsável pela conversão de androstenediona em testosterona. Variações no gene que codifica para essa enzima, em especial os polimorfismos de nucleotídeo único (SNPs), podem estar relacionados com hiperandrogenismo e PCOS. A vitamina D, além dos efeitos sobre metabolismo ósseo, parece modular outras ações extra-esqueléticas, incluindo secreção e sensibilidade tecidual à insulina. A Vitamina D vem sendo associada com resistência insulínica e variantes do gene do receptor da vitamina D (VDR), vem sendo estudadas em populações de risco como no diabetes. No entanto, pouco se sabe sobre o envolvimento destes polimorfismos na PP. Os objetivos do presente trabalho foram: Avaliar os níveis de 25-hidroxivitamina D; determinar a frequência dos polimorfismos FokI, BsmI, ApaI e TaqI do gene do VDR e do SNP-71AG do gene da 17ßHSD5; verificar se existe associação entre esses polimorfismos com variáveis antropométricas, metabólicas e hormonais em uma amostra de pacientes com PP e controles do sul do Brasil. Foram arroladas 36 meninas com PP e 197 controles saudáveis. As genotipagens foram realizadas por PCR em tempo real para os SNPs -71AG, BsmI e FokI e por PCR-RFLP para os SNPs ApaI e TaqI. O SNP -71 AG do gene da 17ßHSD5 apresentou distribuição genotípica de 52,4% AA, 39,1% AG e 8,6% GG, sendo a frequência dos alelos A:G de 0,72:0,28. Analisando os dois grupos, verificamos uma maior freqüência do alelo variante (G) no grupo de meninas com PP quando comparadas aos controles (0,37 e 0,26, respectivamente), no entanto sem diferença estatística (p=0,054); não foram verificadas associações do polimorfismo com os dados clínicos e hormonais. As meninas com PP apresentaram níveis séricos de 25(OH)D inferiores aos das meninas controles (18,08±8,32 versus 21,27±7,03; p=0,032). Na análise dos polimorfismos, observou-se que o genótipo polimórfico GG do SNP ApaI TG, apresentou uma frequência maior em PP (30,6%) do que nas controles (16,2%) (Odds Ratio: 2,269; 95% Intervalo de Confiança: 1,015 – 5,076; p=0,042). Este genótipo foi também associado com níveis mais baixos de estradiol (35,30 (14,80 – 50,48) versus 12,22 (6,49 – 23,69); p=0,030) e testosterona total (0,52 (0,39 – 0,84) versus 0,20 (0,11 – 0,47); p=0,009) nas meninas com PP, mas não foi associado com os níveis de 25(OH)D. Por outro lado, verificou-se associação entre a presença dos polimorfismos TaqI TC (genótipo TC+CC) e BsmI GA (genótipo GA+AA) e níveis séricos de 25(OH)D mais elevados no grupo de meninas saudáveis (19,86±7,16 versus 22,55±6,69, p=0,007; 19,53±6,94 versus 22,88±6,76, p=0,001, respectivamente). Em conclusão, os dados deste estudo indicam que: 1) houve maior freqüência do alelo variante G SNP -71 AG do gene da 17βHSD5, com uma associação limítrofe desse alelo com o diagnóstico clínico de PP; 2) o polimorfismo ApaI TG associou-se com PP e parece estar modulando os processos esteroidogênicos nas meninas com PP; 3) houve uma interação entre os polimorfismos TaqI TC e BsmI GA e concentrações circulantes de vitamina D em meninas do sul do Brasil. / Precocious pubarche (PP) is usually defined as the development of pubic hair before the age of 8 in girls and age of 9 in boys. Although the PP does not interfere directly in puberty events, some evidence suggests that these girls have higher risk for the development of Polycystic Ovary Syndrome (PCOS) at later ages. The Type 5 17β-Hydroxysteroid Dehydrogenase (17ßHSD5) is the principal responsible for the conversion of androstenedione to testosterone. Variations in the gene encoding for this enzyme, especially Single Nucleotide polymorphisms (SNPs), may be related with hyperandrogenism, and PCOS. Besides the effects on bone metabolism, vitamin D appears to modulate other extra-skeletal actions, including secretions and tissue sensitivity to insulin. Vitamin D has been associated with insulin resistance and variants in the vitamin D receptor (VDR) gene, have been studied in populations at risk of Diabetes. However, little is known about these polymorphisms in the PP. The aims of this work were: to evaluate the levels of the 25-hydroxyvitamin D; to determine the polymorphisms FokI, BsmI, ApaI and TaqI in VDR gene and SNP -71AG in 17ßHSD5 gene frequencies; to asses if exist association between this SNPs and anthropometric, metabolic and hormonal characteristics in patients with PP and controls of the southern Brazil. Were enrolled 36 girls with PP and 197 healthy controls. Genotypic analyzes were evaluated by Real Time for the SNPs -71AG, BsmI and FokI and by PCR-RFLP for the ApaI e TaqI polymorphisms. Genotype frequency for SNP -71 AG of the 17ßHSD5 gene was 52.4% AA, 39.1% AG and 8.6% GG, A:G allelic frequency was 0.72:0.28. Analyzing both groups, higher frequency of the variant allele (G) in patient PP than controls (0.37 e 0.26, respectively) was found but without statistical difference (p=0.054); there were no associations between this polymorphism and clinical and hormonal features. PP girls have serum levels of 25(OH)D lower than those from control group (18.08±8.32 versus 21.27±7.03; p=0.032). The polymorphism analyze was observed that genotype GG of the SNP ApaI TG showed a higher frequency in PP (30.6%) than controls (16.2%) (Odds Ratio: 2.269; 95% confidence interval: 1.015 – 5.076; p=0.042). The same genotype was associated with lower estradiol (35.30 (14.80 – 50.48) versus 12.22 (6.49 – 23.69); p=0.030) and total testosterone levels (0.52 (0.39 – 0.84) versus 0.20 (0.11 – 0.47); p=0.009), in girls with PP. There were no association between this polymorphism and serum 25(OH)D. On the other hand, there was association between the presence of the polymorphisms TaqI TC (TC + CC genotype) and BsmI GA (GA + AA genotype) and higher serum 25(OH)D in the group of healthy girls (19.86 ± 7.16 versus 6.69 ± 22:55 , p = 0.007; 19:53 ± 6.94 versus 22.88 ± 6.76, p = 0.001, respectively). In conclusion, data from this study indicate that: 1) there was a higher frequency of the variant allele G of the SNP -71 AG of the 17ßHSD5 gene, with a borderline association of this allele with the clinical diagnosis of PP; 2) ApaI TG polymorphism is associated with PP and seems to modulate the processes steroidogenesis in girls with PP; 3) there was an interaction between the polymorphisms TaqI TC and BsmI GA and vitamin D concentrations in girls from southern Brazil.
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Estudo da associação entre polimorfismos do gene do receptor de vitamina D (VDR) e do SNP-71 A/G do gene 17 beta- hidroxiesteróide desidrogenase tipo 5 (HSD17B5) e variáveis clínicas, hormonais e metabólicas em pacientes com pubarca precoce e controlesSantos, Betânia Rodrigues dos January 2011 (has links)
A pubarca precoce (PP) é definida como o desenvolvimento de pêlos pubianos antes dos 8 anos de idade em meninas e 9 anos de idade em meninos. Embora a PP não interfira diretamente com os eventos da puberdade, algumas evidências sugerem que estas meninas tenham maior risco para desenvolver, mais tarde, a Síndrome dos Ovários Policísticos (PCOS). A 17ß-hidroxiesteróide desidrogenase tipo 5 (17ßHSD5) é a principal responsável pela conversão de androstenediona em testosterona. Variações no gene que codifica para essa enzima, em especial os polimorfismos de nucleotídeo único (SNPs), podem estar relacionados com hiperandrogenismo e PCOS. A vitamina D, além dos efeitos sobre metabolismo ósseo, parece modular outras ações extra-esqueléticas, incluindo secreção e sensibilidade tecidual à insulina. A Vitamina D vem sendo associada com resistência insulínica e variantes do gene do receptor da vitamina D (VDR), vem sendo estudadas em populações de risco como no diabetes. No entanto, pouco se sabe sobre o envolvimento destes polimorfismos na PP. Os objetivos do presente trabalho foram: Avaliar os níveis de 25-hidroxivitamina D; determinar a frequência dos polimorfismos FokI, BsmI, ApaI e TaqI do gene do VDR e do SNP-71AG do gene da 17ßHSD5; verificar se existe associação entre esses polimorfismos com variáveis antropométricas, metabólicas e hormonais em uma amostra de pacientes com PP e controles do sul do Brasil. Foram arroladas 36 meninas com PP e 197 controles saudáveis. As genotipagens foram realizadas por PCR em tempo real para os SNPs -71AG, BsmI e FokI e por PCR-RFLP para os SNPs ApaI e TaqI. O SNP -71 AG do gene da 17ßHSD5 apresentou distribuição genotípica de 52,4% AA, 39,1% AG e 8,6% GG, sendo a frequência dos alelos A:G de 0,72:0,28. Analisando os dois grupos, verificamos uma maior freqüência do alelo variante (G) no grupo de meninas com PP quando comparadas aos controles (0,37 e 0,26, respectivamente), no entanto sem diferença estatística (p=0,054); não foram verificadas associações do polimorfismo com os dados clínicos e hormonais. As meninas com PP apresentaram níveis séricos de 25(OH)D inferiores aos das meninas controles (18,08±8,32 versus 21,27±7,03; p=0,032). Na análise dos polimorfismos, observou-se que o genótipo polimórfico GG do SNP ApaI TG, apresentou uma frequência maior em PP (30,6%) do que nas controles (16,2%) (Odds Ratio: 2,269; 95% Intervalo de Confiança: 1,015 – 5,076; p=0,042). Este genótipo foi também associado com níveis mais baixos de estradiol (35,30 (14,80 – 50,48) versus 12,22 (6,49 – 23,69); p=0,030) e testosterona total (0,52 (0,39 – 0,84) versus 0,20 (0,11 – 0,47); p=0,009) nas meninas com PP, mas não foi associado com os níveis de 25(OH)D. Por outro lado, verificou-se associação entre a presença dos polimorfismos TaqI TC (genótipo TC+CC) e BsmI GA (genótipo GA+AA) e níveis séricos de 25(OH)D mais elevados no grupo de meninas saudáveis (19,86±7,16 versus 22,55±6,69, p=0,007; 19,53±6,94 versus 22,88±6,76, p=0,001, respectivamente). Em conclusão, os dados deste estudo indicam que: 1) houve maior freqüência do alelo variante G SNP -71 AG do gene da 17βHSD5, com uma associação limítrofe desse alelo com o diagnóstico clínico de PP; 2) o polimorfismo ApaI TG associou-se com PP e parece estar modulando os processos esteroidogênicos nas meninas com PP; 3) houve uma interação entre os polimorfismos TaqI TC e BsmI GA e concentrações circulantes de vitamina D em meninas do sul do Brasil. / Precocious pubarche (PP) is usually defined as the development of pubic hair before the age of 8 in girls and age of 9 in boys. Although the PP does not interfere directly in puberty events, some evidence suggests that these girls have higher risk for the development of Polycystic Ovary Syndrome (PCOS) at later ages. The Type 5 17β-Hydroxysteroid Dehydrogenase (17ßHSD5) is the principal responsible for the conversion of androstenedione to testosterone. Variations in the gene encoding for this enzyme, especially Single Nucleotide polymorphisms (SNPs), may be related with hyperandrogenism, and PCOS. Besides the effects on bone metabolism, vitamin D appears to modulate other extra-skeletal actions, including secretions and tissue sensitivity to insulin. Vitamin D has been associated with insulin resistance and variants in the vitamin D receptor (VDR) gene, have been studied in populations at risk of Diabetes. However, little is known about these polymorphisms in the PP. The aims of this work were: to evaluate the levels of the 25-hydroxyvitamin D; to determine the polymorphisms FokI, BsmI, ApaI and TaqI in VDR gene and SNP -71AG in 17ßHSD5 gene frequencies; to asses if exist association between this SNPs and anthropometric, metabolic and hormonal characteristics in patients with PP and controls of the southern Brazil. Were enrolled 36 girls with PP and 197 healthy controls. Genotypic analyzes were evaluated by Real Time for the SNPs -71AG, BsmI and FokI and by PCR-RFLP for the ApaI e TaqI polymorphisms. Genotype frequency for SNP -71 AG of the 17ßHSD5 gene was 52.4% AA, 39.1% AG and 8.6% GG, A:G allelic frequency was 0.72:0.28. Analyzing both groups, higher frequency of the variant allele (G) in patient PP than controls (0.37 e 0.26, respectively) was found but without statistical difference (p=0.054); there were no associations between this polymorphism and clinical and hormonal features. PP girls have serum levels of 25(OH)D lower than those from control group (18.08±8.32 versus 21.27±7.03; p=0.032). The polymorphism analyze was observed that genotype GG of the SNP ApaI TG showed a higher frequency in PP (30.6%) than controls (16.2%) (Odds Ratio: 2.269; 95% confidence interval: 1.015 – 5.076; p=0.042). The same genotype was associated with lower estradiol (35.30 (14.80 – 50.48) versus 12.22 (6.49 – 23.69); p=0.030) and total testosterone levels (0.52 (0.39 – 0.84) versus 0.20 (0.11 – 0.47); p=0.009), in girls with PP. There were no association between this polymorphism and serum 25(OH)D. On the other hand, there was association between the presence of the polymorphisms TaqI TC (TC + CC genotype) and BsmI GA (GA + AA genotype) and higher serum 25(OH)D in the group of healthy girls (19.86 ± 7.16 versus 6.69 ± 22:55 , p = 0.007; 19:53 ± 6.94 versus 22.88 ± 6.76, p = 0.001, respectively). In conclusion, data from this study indicate that: 1) there was a higher frequency of the variant allele G of the SNP -71 AG of the 17ßHSD5 gene, with a borderline association of this allele with the clinical diagnosis of PP; 2) ApaI TG polymorphism is associated with PP and seems to modulate the processes steroidogenesis in girls with PP; 3) there was an interaction between the polymorphisms TaqI TC and BsmI GA and vitamin D concentrations in girls from southern Brazil.
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