Neurotensin Regulates Primate Ovulation Via Multiple Neurotensin Receptors
Andrew C Pearson, Jessica S Miller, Hannah J Jensen, Ketan Shrestha, Thomas E Curry, Diane M Duffy

TL;DR
Neurotensin regulates ovulation in primates through two receptors, NTSR1 and SORT1, which are essential for follicle rupture and blood vessel formation.
Contribution
This study identifies NTSR1 and SORT1 as key receptors through which neurotensin regulates ovulation in primates.
Findings
Blocking NTS receptors reduced follicle rupture and altered blood vessel formation in macaques.
Both NTSR1 and SORT1 are required for neurotensin to stimulate endothelial cell migration and reduce permeability.
Neurotensin signaling via NTSR1 and SORT1 is critical for ovulation, luteinization, and angiogenesis.
Abstract
Neurotensin (NTS), a small neuropeptide, was recently established as a key paracrine mediator of ovulation. NTS mRNA is highly expressed by granulosa cells in response to the luteinizing hormone surge, and multiple NTS receptors are expressed by cells of the ovulatory follicle. To identify the role of NTS receptors NTSR1 and SORT1 in ovulation in vivo, the dominant follicle of cynomolgus macaques (Macaca fascicularis) was injected with either vehicle control, the general NTS receptor antagonist SR142948, the NTSR1-selective antagonist SR48692, or the SORT1-selective antagonist AF38469. hCG was then administered to initiate ovulatory events. Ovulation was successful in all control-injected follicles. Rupture sites were smaller or absent after injection with NTS receptor antagonists. Histological analysis of follicles injected with SR142948, SR48692, or AF38469 revealed increased red…
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Taxonomy
TopicsNeuropeptides and Animal Physiology · Biochemical and Structural Characterization · Antimicrobial Peptides and Activities
