Polycystic ovary syndrome
(PCOS) is a common heterogenous endocrine disorder associated with
amenorrhoea (or oligomenorrhoea), hyperandrogenism, hirsutism, obesity,
insulin resistance, and an approximately 7-fold increased risk of type 2
diabetes mellitus (NIDDM - non-insulin dependent diabetes mellitus).
According to the study by the Polish Mother's Memorial Hospital -
Research Institute, posted in PubMed, there are also ethnic and racial variations in the prevalence of the syndrome
and its symptoms. Multiple biochemical pathways have been implicated in
the pathogenesis of PCOS. Several genes from these pathways have been
tested include genes involved in steroid hormone biosynthesis and
metabolism (StAR, CYP11, CYP17, CYP19 HSD17B1-3, HSD3B1-2), gonadotropin
and gonadal hormones action (ACTR1, ACTR2A-B, FS, INHA, INHBA-B, INHC,
SHBG, LHCGR, FSHR, MADH4, AR), obesity and energy regulation (MC4R, OB,
OBR, POMC, UCP2-3), insulin secretion and action (IGF1, IGF1R,
IGFBPI1-3, INS VNTR, IR, INSL, IRS1-2, PPARG) and many others. Most
women with PCOS, both obese and lean, have a degree of insulin
resistance. The minisatellite of insulin gene (INS VNTR), especially
class III alleles and III/III genotypes might not only determine the
predisposition to anovulatory PCOS but also the concomitant risk for
development of type 2 diabetes. The function of the insulin receptor
(IR) is probably normal in woman with PCOS. However abnormal serine
phosphorylation in the receptor may impair signal transduction
accounting for a post-binding defect in insulin action. Serine
phosphorylation is also involved in the postranslational regulation of
17,20-lyase activity (CYP17). There may be a common aetiology for both
insulin resistance and hyperandrogenism. Polymorphic alleles of both
IRS-1 and IRS-2 (insulin receptor substrate 1 - 2), alone or in
combination, may have a functional impact on the insulin-resistant
component of PCOS. There is no evidence to suggest that follistatin gene
polymorphisms play a role in the pathogenesis of insulin resistance in
PCOS women. PCOS appears to be associated with the absence of the
four-repeat-units allele in a polymorphic region of pentanucleotide
(TTTTA)n repeats within CYP11A gene, which encodes cytochrome P450scc.
It has been hypothesized that up-regulation of this enzyme could lead to
increased androgen production. There is no evidence of any association
of alleles of CYP19 gene (encoding cytochrome P450arom) with PCOS.
Association exists between androgen receptor gene (AR) polymorphisms an
androgens action in PCOS. Increased hirustism and decreased CAG repeat
length within AR gene has been also demonstrated in women with normal
testosterone levels. Expression of estrogen receptor (ERs) as well as
5-alpha-reeducates (SRD5A1-2 genes) activity was analysed in granulosa
(GC) and theca cells (TC).
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A fabulous E book with Research based & Scientifically proven Efficacy To Treat Fatty Liver Diseases & Achieve Optimal Health & Loose Weight
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