No difference in 5-HTTLPR and Stin2 polymorphisms frequency between premature ejaculation patients and controls.

INTRODUCTION: Premature ejaculation (PE) is defined as the inability of men to control ejaculation and it is the most prevalent male sexual dysfunction. The neurobiogenesis of ejaculation is very complex and involves the serotoninergic (5-hydroxytryptamine [5-HT]) system. A genetic etiology of PE in humans was stated accounting for around 30%. Recently, genetic polymorphisms located on SLC6A4 gene codifying for 5-HT transporter (5-HTT or serotonin transporter [SERT]), the major regulator of serotonergic neurotransmission, have been linked with the pathogenesis of PE and associated with the clinical response to therapy with contrasting results. AIM: In order to establish a possible pathogenetic link between PE and SLC6A4 polymorphisms, we analyzed the 5-HTT-linked polymorphic region (5-HTTLPR), rs25531, and STin2 polymorphisms in 121 patients affected by lifelong and acquired PE. METHODS: Polymerase chain reaction (PCR)-based technology followed by restriction fragment length polymorphism (RFLP) analysis. MAIN OUTCOME MEASURES: Intravaginal ejaculatory latency time was measured by stopwatch in order to diagnose PE, and the results of the SLC6A4 polymorphisms analysis in PE patients was compared with the control group. RESULTS: Genotype frequencies for 5-HTTLPR, rs25531, and STin2 for both patients and controls showed no significant deviation from Hardy-Weinberg equilibrium. No statistically significant differences were found in the frequency of SLC6A4 gene polymorphisms in PE patients vs. controls, or in lifelong PE patients vs. controls, or acquired PE patients vs. controls, or lifelong PE vs. acquired PE patients. The obtained data were contrasting with three out of four previously published reports. CONCLUSIONS: The present results indicate that no difference exists in SLC6A4 polymorphisms frequency between PE patients and controls. A comparison with the previously published reports on this field is reported.

Analysis of single nucleotide polymorphisms of FSH receptor gene suggests association with testicular cancer susceptibility.

The development of testicular germ cell tumour (TGCT) is believed to be under endocrine control but definitive proofs are lacking. Follicle stimulating hormone (FSH) levels are increased in numerous conditions associated with increased risk of TGCT and single nucleotide polymorphisms (SNPs) in the FSH receptor (FSHR) gene influence the sensitivity of the receptor to FSH. However, a possible effect of FSH on testicular carcinogenesis has never been explored. In order to analyse the possible association of FSHR polymorphisms with TGCT, we studied 188 TGTC cases and 152 controls for 12 FSHR SNPs. Only four SNPs were found to be informative, represented by two polymorphisms in exon 10 (Ala307Thr and Ser680Asn), and two polymorphisms in the promoter region (-114 T/C and -29 G/A). Differences in haplotype distribution were seen between TGCT cases and controls. In particular for non-seminoma, the Ala307/Ser680 allele lowers the risk of the disease, alone (P=0.014, relative risk 0.73; 95% confidence interval 0.57-0.92), or in combination with the -29 G allele and/or the -114 T allele. This study suggests for the first time that FSHR gene polymorphisms modulate susceptibility to TGCT. The variants with higher activity of the FSHR are associated with higher risk, suggesting a role for FSH in the carcinogenesis of this tumour.

Role of familiarity versus interleukin-1 genes cluster polymorphisms in chronic periodontitis.

Periodontitis (PO) is a multifactorial disease affecting about 10% to 20% of the general population. Several studies have suggested that part of the clinical variability in PO might be explained by genetic factors. Among the candidate genes for PO, IL1 gene polymorphisms have been broadly investigated, with variable results, for their relationship with the disease. We studied three IL1 polymorphisms, IL1A C[-889]T (rs1800587), IL1B C[3953/4]T (rs1143634), and IL1RN VNTR [+2018] (rs419598) in relation to different life styles and familiarities. We did not find correlation between these IL1 polymorphisms and chronic PO, as well as between chronic PO and life styles (smoking, alcohol, coffee, fizzy drink and fish). We found a strong correlation, also after adjustment for age, between familiarity and PO onset (P=0.0062; OR 5.754, 95% CI 1.644-20.145). In conclusion, we did confirm the previously suggested association between PO and IL1 gene cluster polymorphisms, and between PO and four common risk factors (coffee, smoking, alcohol and fizzy drinks) and one common protective factor (fish). On the contrary, we found a strong role of familiarity.

Variants in KITLG predispose to testicular germ cell cancer independently from spermatogenic function.

Epidemiological data suggest an association and a common pathogenetic link between male infertility and testicular germ cell tumor (TGCT) development. Genome-wide studies identified that TGCT susceptibility is associated with KITLG (c-KIT ligand), which regulates the formation of primordial germ cells, from which TGCT is believed to arise and spermatogenesis develops. In this study, we analyzed the link between KITLG, TGCT, and spermatogenic disruption by performing an association study between the KITLG markers rs995030 and rs4471514 and 426 TGCT cases and 614 controls with normal and abnormal sperm count. We found that TGCT risk was increased more than twofold per copy of the major G allele and A allele in KITLG rs995030 and rs4471514 (odds ratio (OR)=2.38, 95% confidence interval (95% CI)=1.81-3.12; OR=2.43, 95% CI=1.86-3.17 respectively), and homozygotes for the risk allele had a sevenfold increased risk of TGCT. KITLG markers were strongly associated with seminoma subtype (per allele risk increased more than threefold, homozygote risk increased by 13- to 16-fold) and weakly with nonseminoma. KITLG markers were not associated with sperm production, as no difference was observed in men with normozoospermia and azoo-oligozoospermia, both in controls and in TGCT cases. In conclusion, this study provides evidence that KITLG variants are involved in TGCT development and they represent an independent and strong specific risk factor for TGCT independently from spermatogenic function. A shared genetic cause and a common pathogenetic link between TGCT development and impairment of spermatogenesis are not evident from this study.

Association of testicular germ cell tumor with polymorphisms in estrogen receptor and steroid metabolism genes.

It is generally assumed that the development of testicular germ cell tumor (TGCT) is under endocrine control. In particular, unbalanced androgen/estrogen levels and/or activity are believed to represent the key events for TGCT development and progression. Furthermore, recent evidence has suggested a strong genetic component for TGCT. In this study, we analyzed whether a genetic variation in estrogen receptor (ESR) genes and steroid hormone metabolism genes is associated with TGCT. We genotyped for 17 polymorphic markers in 11 genes in 234 TGCT cases and 218 controls: ESR (ESR1 and ESR2); CYP19A1 (aromatase); 17beta-hydroxysteroid dehydrogenase types 1 and 4 (HSD17B1 and HSD17B4) dehydrogenases that convert potent androgens and estrogens to weak hormones; cytochrome P450 hydroxylating enzymes CYP1A1, CYP1A2, and CYP1B1; and the metabolic enzymes COMT, SULT1A1, and SULT1E1. We observed a significant association of rs11205 in HSD17B4 with TGCT. TGCT risk was increased twofold per copy of the minor A allele at this locus (odds ratios (OR)=2.273, 95% confidence interval (CI)=1.737-2.973). Homozygous carriage of the minor A allele was associated with an over fourfold increased risk of TGCT (OR=4.561, 95% CI=2.615-7.955) compared with homozygous carriage of the major G allele. The risk was increased both for seminoma (OR=5.327, 95% CI=2.857-9.931) and for nonseminoma (OR=3.222, 95% CI=1.471-7.059). We found for the first time an association of polymorphisms in HSD17B4 gene with TGCT. Our findings expand the current knowledge on the role of genetic contribution in testicular cancer susceptibility, and support the hypothesis that variations in hormone metabolism genes might change the hormonal environment implicated in testicular carcinogenesis.

FSH receptor gene polymorphisms in fertile and infertile Italian men.

In women, single nucleotide polymorphisms (SNP) of the FSH receptor (FSHR) gene influence FSH concentrations and the sensitivity of the FSHR to FSH in vivo. In contrast, the significance of FSHR R gene SNP in the male is poorly understood. To this aim, the possible role of three FSHR SNP was evaluated in male infertility. SNP in exon 10 (codon 307 and 680) and in the core promoter region (at position -29) of the FSHR gene were analysed by polymerase chain reaction-restriction fragment length polymorphism technique in 150 men representative of the general population, 107 proven fathers, 92 normozoospermic controls, and 215 infertile patients classified according to sperm parameters (38 azoospermia, 53 severe oligozoospermia, 48 moderate oligozoospermia, and 76 slight oligozoospermia). Reproductive hormones were measured in infertile males and normozoospermic controls. No significant difference was found in allelic variants frequency and genotype distribution between each category of subjects when analysing the FSHR exon 10 SNP alone and in combination with the SNP at position -29. Serum FSH concentrations and other andrological parameters did not differ between subjects with different genotype within each group. The data showed that in the Italian population, FSHR genotypes have no influence on FSH concentrations both in normal and infertile males and do not associate with spermatogenetic impairment.