Nitric oxide modulates murine yolk sac vasculogenesis and rescues glucose induced vasculopathy

Author:

Nath Anjali K.1,Enciso Josephine2,Kuniyasu Misako3,Hao Xiao-Ying3,Madri Joseph A.4,Pinter Emese3

Affiliation:

1. Department of Molecular, Cellular and Developmental Biology, Yale University School of Medicine, New Haven, CT 06520, USA

2. Department of Pediatrics, Baylor College of Medicine, Houston, TX 77030,USA

3. Department of Pediatrics, Yale University School of Medicine, New Haven, CT 06510, USA

4. Department of Pathology, Yale University School of Medicine, New Haven, CT 06510, USA

Abstract

Nitric oxide (NO) has been demonstrated to mediate events during ovulation,pregnancy, blastocyst invasion and preimplantation embryogenesis. However,less is known about the role of NO during postimplantation development. Therefore, in this study, we explored the effects of NO during vascular development of the murine yolk sac, which begins shortly after implantation. Establishment of the vitelline circulation is crucial for normal embryonic growth and development. Moreover, functional inactivation of the endodermal layer of the yolk sac by environmental insults or genetic manipulations during this period leads to embryonic defects/lethality, as this structure is vital for transport, metabolism and induction of vascular development. In this study, we describe the temporally/spatially regulated distribution of nitric oxide synthase (NOS) isoforms during the three stages of yolk sac vascular development (blood island formation, primary capillary plexus formation and vessel maturation/remodeling) and found NOS expression patterns were diametrically opposed. To pharmacologically manipulate vascular development,an established in vitro system of whole murine embryo culture was employed. During blood island formation, the endoderm produced NO and inhibition of NO(L-NMMA) at this stage resulted in developmental arrest at the primary plexus stage and vasculopathy. Furthermore, administration of a NO donor did not cause abnormal vascular development; however, exogenous NO correlated with increased eNOS and decreased iNOS protein levels. Additionally, a known environmental insult (high glucose) that produces reactive oxygen species(ROS) and induces vasculopathy also altered eNOS/iNOS distribution and induced NO production during yolk sac vascular development. However, administration of a NO donor rescued the high glucose induced vasculopathy, restored the eNOS/iNOS distribution and decreased ROS production. These data suggest that NO acts as an endoderm-derived factor that modulates normal yolk sac vascular development, and decreased NO bioavailability and NO-mediated sequela may underlie high glucose induced vasculopathy.

Publisher

The Company of Biologists

Subject

Developmental Biology,Molecular Biology

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1. Differential responses to maternal diabetes in embryo and visceral yolk sac;Frontiers in Cell and Developmental Biology;2023-10-19

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3. Aberrant lipid accumulation in the mouse visceral yolk sac resulting from maternal diabetes and obesity;Frontiers in Cell and Developmental Biology;2023-03-01

4. Therapeutic Prospects of Nitric Oxide as an Anti-teratogen;Nitric Oxide: From Research to Therapeutics;2023

5. Ocimum basilicum alleviates blood glucose, lipid profile and iNOS in diabetes gestational rat model;Journal of Complementary and Integrative Medicine;2022-04-25

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