A pilot study on the transcriptional response of androgen- and insulin-related genes in peripheral blood mononuclear cells induced by testosterone administration in hypogonadal men.

The aim of the present study is to determine whether testosterone (T) administration changes the expression profile of androgen- and insulin-related genes in peripheral blood mononuclear cells (PBMC). To this end, we evaluated the gene expression profile of 19 genes (AKT2, CCND1, GSK3ALPHA, IGF1, GSK3BETA, FOXO3, IL6, IGFBP2, UGT2B17, ARA55, CREBBP, CYP11A, HSD17B1, HSD17B7, UGT2B7, SELADIN 1, CLU, PGC1, AKR1C1) selected according their function in the androgen pathways, in a series of 11 hypogonadal men pharmacologically treated with T. We noted that 7 genes were differentially expressed, five of them were up-regulated (AKT2 FC=2.39, CREBBP FC=11.2, GSK3beta FC=5.6, UGT2B7 FC=4.49, UGT2B17 FC=2.88) and two were down-regulated (ARA55 FC= -2.0, CYP11A FC= -2.47). This experience suggests that androgen- and insulin-related genes can be considered useful blood genomic biomarkers for specific steroid drugs.

SOS1 over-expression in genital skin fibroblasts from hirsute women: a putative role of the SOS1/RAS pathway in the pathogenesis of hirsutism.

Hirsutism is the development of androgen-dependent terminal body hair in women in places in which terminal hair are normally not found. It is often associated with hyperandrogenemia and/or polycystic ovary syndrome (PCOS), but the existence of uncommom hirsutism forms that are not related to altered androgen plasma levels lead also to the definition of - idiopathic hirsutism. Although the pathophysiology of hirsutism has been linked to increasing 5-alpha reductase (SRD5A) activity and to an alteration of the androgen receptor (AR) transcriptional machinery, many aspects remain unclear. In particular, the relationships between androgens and local factors are poorly understood. In the present paper, we selected for a genital skin biopsy, 8 women affected with severe hirsutism (Ferriman-Gallway score greater than 25) but with normal plasma androgen levels, with the exception of slightly higher serum 3alpha-diol-glucuronide levels, and 6 healthy controls and analyzed their androgen- and insulin-specific transcriptional profile using a specific custom low density microarray (AndroChip 2, GPL9164). We identified the over-expression of the Son of Sevenless-1 (SOS1) gene in all of the hirsute skin fibroblast primary cell cultures compared to control healthy women. Since SOS1 is a guanine nucleotide exchange factor that couples receptor tyrosine kinases to the RAS signaling pathway that controls cell proliferation and differentiation, we further analyzed SOS1 expression, protein level and RAS signaling activation pathway in an in vitro model (NHDF, normal human dermal fibroblast cell line). NHDF treated for 24 h with different concentrations of DHT and T showed an increase in SOS1 levels (both mRNA and protein) and also an activation of the RAS pathway. Our in vivo and in vitro data represent a novel preliminary observation that factors activating SOS1 could act as local proliferative modulators linked to the androgen pathway in the pilosebaceous unit. SOS1 over-expression may play a role in the regulation of the RAS/mitogen-activated protein kinase pathway in the skin, in the hair follicle proliferation and cell cycle, suggesting new perspectives in understanding the pathogenesis of idiopathic hirsutism.

Androgen- and insulin-related gene signature using a specific low density oligoarray AndroChip 2 in peripheral blood mononuclear cells in agonists, recreational athletes and sedentary subjects.

The early detection of genomic biomarkers (e.g. RNAs) through analysis of circulating blood cells could have a substantial impact on biomedicine, particularly in monitoring clinical trials, drug toxicity and doping in athletes. To achieve this goal, it is essential to develop methods that are sufficiently sensitive to detect biomarker alterations during normal biologic processes, pathogenic processes, and or in response to therapeutic or other intervention. Using a low density microarray (AndroChip 2) we detected a transcriptional profiling signature of 190 genes related to androgen and insulin metabolism pathway, in peripheral blood mononuclear cell (PBMC) in subjects with different intensities of sports activities. We demonstrated that androgen and insulin gene transcriptional levels are independent to sports activity and therefore potentially suitable for drug monitoring and/or drug doping (such as anabolic androgen steroid AAS abuse) and or gene doping.

Effects of TNF-α and IL-1 ß on the activation of genes related to inflammatory, immune responses and cell death in immortalized human HaCat keratinocytes.

The present experiments were designed to characterize by microarray analysis the transcriptional responses of human keratinocytes (HaCat) to TNF-α and IL-1 ß, given alone or in combination, in order to better understand the mechanisms underlying inflammatory, immune responses and cell death in which both cytokines play a pathophysiological role. Significant differences in the percentage and quality of genes dysregulated by TNF-α and IL-1 ß were shown. Both cytokines activated a series of genes involved in inflammatory, immune response as well as in cell death. In our experimental conditions, TNF-α, in contrast to IL-1 ß, did not induce a significant level of apoptosis in keratinocytes. However, given together both cytokines produced a significant decrease in apoptotic cells and synergistic transcriptional response which was due to the activation of several specific genes occurring after application of each cytokine. TNF-α and IL-1 ß evoked apoptotic effect and transcriptional responses were linked to the stimulation of their specific receptors since a pre-treatment with monoclonal antibodies vs TNF-α and/or IL-1 ß receptors was able to significantly reduce them.

Gene expression profile study in CFTR mutated bronchial cell lines.

Cystic fibrosis (CF) is caused by mutations in the gene encoding the cystic fibrosis conductance transmembrane regulator (CFTR). Symptoms are pancreatic insufficiency, chronic obstructive lung disease, liver disease, chronic sinusitis and infertility in male patients. The phenotypic variability may be explained only in part by the more than 1200 CFTR mutations, which are grouped into six different classes, according to their effect on the protein ranging from a severe (no synthesis or blocked processing) to mild mutation (altered conductance or reduced synthesis). However, it is now accepted that other genes (CF modifiers) influence the phenotypic spectrum of the disease. In order to identify CF modifier genes, we built a low-density home-made oligoarray containing 144 genes selected according to biochemical criteria and evaluated their expression in two CF bronchial epithelial cell lines (CuFi1 F508del/F508del; CuFi3 F508del/R553X). If we consider both cell lines, 38 genes (26.3%) show an altered expression pattern with a threshold > +/-1.5. Of these 38 genes, 12 are altered in CuFi1, and 26 in CuFi3. Some of these genes share the same expression pattern in both cell lines, while others have a different behaviour. These results were validated by a QRT-PCR assay (R2 CuFi1 = 0.81 and R2 CuFi3 = 0.91). These data could suggest that the presence of a class I allele (R553X) determines a more profound alteration of gene expression pattern than the presence of a class II allele (F508del). The identification of the genes altered by a specific CF mutation could lead to the development of a pharmacological approach specific for different CFTR genotypes.