Parent-of-origin effects on glucose homeostasis in polycystic ovary syndrome.

CONTEXT

Polycystic ovary syndrome (PCOS) is a highly heritable complex trait. Parents of affected women have reproductive and metabolic phenotypes.

OBJECTIVE

We tested the hypothesis that there are parental effects on the heritability of fasting dysglycemia in women with PCOS.

DESIGN AND SETTING

This was a cross-sectional study at an academic medical center.

PARTICIPANTS

PARTICIPANTS included 367 women with PCOS and their parents (1101 total subjects).

MAIN OUTCOME MEASURES

We compared maternal and paternal contributions to heritability of fasting dysglycemia and to transmission of the PCOS susceptibility allele of D19S884 within the fibrillin-3 gene (D19S884-A8) on fasting dysglycemia.

RESULTS

Fathers had higher fasting glucose levels, prevalence of fasting dysglycemia and proinsulin to insulin molar ratios (P < .0001), a marker of defective insulin processing, compared with mothers. Heritability of fasting dysglycemia was significant in PCOS families (h(2) = 37%, SE = 10%, P = .001). Maternal heritability (h(2) = 51%, SE = 15%, P = .0009) was higher than paternal heritability (h(2) = 23 %, SE = 23%, P = .186) of fasting dysglycemia after adjustment for age and body mass index. Within dysglycemic probands, there was increased maternal compared with paternal transmission of D19S884-A8 (maternal 84% vs paternal 45%, χ(2) = 6.51, P = .011).

CONCLUSIONS

There was a sex difference in the parental metabolic phenotype with fathers having an increased risk of fasting dysglycemia and evidence for pancreatic β-cell dysfunction compared with mothers. However, only maternal heritability had significant effects on the prevalence of fasting dysglycemia in women with PCOS. Furthermore, there were maternal parent-of-origin effects on transmission of D19S884-A8 probands with fasting dysglycemia. These findings suggest that maternal factors, genetic and perhaps epigenetic, contribute to the metabolic phenotype in affected women.