In the United States, nearly one in three women of childbearing age is obese. As maternal obesity impacts the health of offspring, it is imperative to obtain a better understanding of the mechanisms that drive these influences. It remains unclear whether the underlying pathophysiology is related to abnormal hypothalamic- pituitary dynamics, abnormal ovarian environment, or both. Obesity is associated with decreased pituitary output of luteinizing hormone (LH) and FSH, inadequate folliculogenesis and reduced ovarian steroid and protein production. The persistent deficit in FSH secretion, despite the lack of restraint and normal pituitary FSH reserve, remains unexplained. FSH is secreted intermittently in pulses, which are important for hypothalamic-pituitary-ovarian (HPO) axis regulation. FSH pulsatile secretion has been challenging to characterize. We hypothesize that one reason a lack of clarity still exists is that current analytic methods fail to appropriately characterize the hormone secretion dynamics of FSH and its feedback. The overriding objective is to define essential characteristics of FSH-ovarian interactions using a multi- disciplinary approach. We build upon (1) our existing Bayesian approaches to modeling pulsatile hormones to develop a biologically relevant and flexible model, and (2) transgenic FSH mouse model showing that pulsatile FSH secretion dramatically enhances ovarian function.
AIM 1 focuses on showing how new joint models leverage the clearer information about LH pulses to clarify FSH pulses. Associations between pulse locations and amplitudes of both hormones will be used to differentiate between constitutive and pulsatile secretion of FSH. We will utilize existing experimental data from the PI's previously conducted NIH-funded obesity studies in a cost-effective way.
In AIM 2, we will determine if exogenous FSH administered in a pulsatile fashion results in a significant increase of ovarian hormones in obese women. Serial inhibin B and E2 levels will be measured in obese and normal weight women undergoing frequent blood sampling studies before and after GnRH antagonist blockade.
AIM 3 will determine the FSH pulse characteristics and effects of diet-induced obesity on FSH and its secretagogues in a transgenic mouse model. Serial blood sampling and a multiplex assay that simultaneously measures LH and FSH in low volumes of mouse serum will be used. We will also measure how FSH-responsive ovarian genes would be affected, perform fertility analysis, and test the oocyte quality. Ultimately, we anticipate that our results will pinpoint the component of the HPO axis (central vs. ovary) that is primarily affected in hormonal dysregulation in obese women. Identification of a direction will inform future studies of interactions between altered HPO dynamics and possible molecular mechanisms. We will also develop a general analytic framework to clarify pulsatile secretion in any linked hormones.

Public Health Relevance

Excess maternal weight, especially obesity, influences almost every aspect of fertility, from conception to problems during pregnancy. We will use novel statistical methods as well as clinical and animal studies to clarify the hormonal changes behind reproductive health conditions. A better understanding of reproductive hormonal changes in obese women may offer a way to identify new treatments.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Project (R01)
Project #
5R01HD081162-02
Application #
9134482
Study Section
Integrative and Clinical Endocrinology and Reproduction Study Section (ICER)
Program Officer
Lamar, Charisee A
Project Start
2015-08-28
Project End
2020-05-31
Budget Start
2016-06-01
Budget End
2017-05-31
Support Year
2
Fiscal Year
2016
Total Cost
$330,052
Indirect Cost
$90,037
Name
University of Colorado Denver
Department
Obstetrics & Gynecology
Type
Schools of Medicine
DUNS #
041096314
City
Aurora
State
CO
Country
United States
Zip Code
80045
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Kallen, Amanda; Polotsky, Alex J; Johnson, Joshua (2018) Untapped Reserves: Controlling Primordial Follicle Growth Activation. Trends Mol Med 24:319-331
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