Identification of factors that regulate the onset of puberty is important to our understanding of a fundamental human developmental process and of the pathophysiology of many reproductive endocrine disorders. These factors remain largely elusive, but mouse and human data demonstrate that genetic background is a critical modulator of pubertal timing. The objective of this proposal is to use combined mouse and human studies to identify genes that regulate the timing of puberty and, thereby, to identify important regulators of the reproductive endocrine axis. Through analysis of a unique panel of chromosome substitution strains (CSS), we have recently demonstrated that chromosomes 6 and 13 harbor genes that contribute to differences in the timing of vaginal opening between 2 inbred mouse strains (C57BL/6J and A/J). This finding lays the foundation for our studies designed to fine map individual quantitative trait loci (QTL) and identify responsible genes. In a complementary series of studies, a candidate gene approach will be used to identify genes that regulate the onset of puberty in humans. Initially these studies will focus on biological candidates and pathways drawn from the literature and informed by the mouse data (i.e. chromosomal location). Once mouse genes have been identified, subsequent studies will focus on analysis of the homologous human pathways. A unique set of resources and individuals has been assembled for this proposal. These include the CSS, existing populations of trios (probands with late pubertal development and their parents), and a cohort of women with timing of menarche within the earliest or latest 10% of the population. The investigative team includes a PI with the required experience in mouse and human studies and world renowned experts in the study of complex traits in mice and in humans. Together we propose to: (1) Identify small regions of the mouse genome that modulate the timing of vaginal opening using the CSS and congenic mice for QTL mapping;(2) Identify causative genes within the QTLs through analysis of sequence differences between the 2 progenitor strains combined with the generation and phenotyping of bacterial artificial chromosome transgenic mice;and (3) Evaluate whether sequence variation within candidate genes from selected biological and mouse-derived pathways modulates the timing of puberty in humans by performing association studies among populations with pubertal onset at the extremes of normal timing.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Project (R01)
Project #
5R01HD048960-05
Application #
7638022
Study Section
Genetics of Health and Disease Study Section (GHD)
Program Officer
Winer, Karen
Project Start
2005-08-01
Project End
2011-05-31
Budget Start
2009-06-01
Budget End
2011-05-31
Support Year
5
Fiscal Year
2009
Total Cost
$346,696
Indirect Cost
Name
Hospital for Sick Chldrn (Toronto)
Department
Type
DUNS #
208511808
City
Toronto
State
ON
Country
Canada
Zip Code
M5 1-X8
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Silveira-Neto, Acácio P; Leal, Leticia Ferro; Emerman, Amy B et al. (2012) Absence of functional LIN28B mutations in a large cohort of patients with idiopathic central precocious puberty. Horm Res Paediatr 78:144-50
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Zhu, Hao; Shah, Samar; Shyh-Chang, Ng et al. (2010) Lin28a transgenic mice manifest size and puberty phenotypes identified in human genetic association studies. Nat Genet 42:626-30
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Gajdos, Zofia K Z; Henderson, Katherine D; Hirschhorn, Joel N et al. (2010) Genetic determinants of pubertal timing in the general population. Mol Cell Endocrinol 324:21-9
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Hodges, Craig A; Cotton, Calvin U; Palmert, Mark R et al. (2008) Generation of a conditional null allele for Cftr in mice. Genesis 46:546-52
Hodges, Craig A; Palmert, Mark R; Drumm, Mitchell L (2008) Infertility in females with cystic fibrosis is multifactorial: evidence from mouse models. Endocrinology 149:2790-7

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