Short-term Western-style diet negatively impacts reproductive outcomes in primates
Sweta Ravisankar, … , Shawn L. Chavez, Jon D. Hennebold
Sweta Ravisankar, … , Shawn L. Chavez, Jon D. Hennebold
Published February 22, 2021
Citation Information: JCI Insight. 2021;6(4):e138312. https://doi.org/10.1172/jci.insight.138312.
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Research Article Metabolism Reproductive biology

Short-term Western-style diet negatively impacts reproductive outcomes in primates

Abstract

A maternal Western-style diet (WSD) is associated with poor reproductive outcomes, but whether this is from the diet itself or underlying metabolic dysfunction is unknown. Here, we performed a longitudinal study using regularly cycling female rhesus macaques (n = 10) that underwent 2 consecutive in vitro fertilization (IVF) cycles, one while consuming a low-fat diet and another 6–8 months after consuming a high-fat WSD. Metabolic data were collected from the females prior to each IVF cycle. Follicular fluid (FF) and oocytes were assessed for cytokine/steroid levels and IVF potential, respectively. Although transition to a WSD led to weight gain and increased body fat, no difference in insulin levels was observed. A significant decrease in IL-1RA concentration and the ratio of cortisol/cortisone was detected in FF after WSD intake. Despite an increased probability of isolating mature oocytes, a 44% reduction in blastocyst number was observed with WSD consumption, and time-lapse imaging revealed delayed mitotic timing and multipolar divisions. RNA sequencing of blastocysts demonstrated dysregulation of genes involved in RNA binding, protein channel activity, mitochondrial function and pluripotency versus cell differentiation after WSD consumption. Thus, short-term WSD consumption promotes a proinflammatory intrafollicular microenvironment that is associated with impaired preimplantation development in the absence of large-scale metabolic changes.

Authors

Sweta Ravisankar, Alison Y. Ting, Melinda J. Murphy, Nash Redmayne, Dorothy Wang, Carrie A. McArthur, Diana L. Takahashi, Paul Kievit, Shawn L. Chavez, Jon D. Hennebold

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Figure 5

Delayed mitotic timing and multipolar divisions were observed in WSD preimplantation embryos.

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Delayed mitotic timing and multipolar divisions were observed in WSD pre...
The time intervals between the appearance of the first cleavage furrow to the end of the first cytokinesis, the beginning of the second mitotic division, and the start of the third mitotic division were measured during preimplantation development until the embryo arrested or formed a blastocyst in COS #1 versus COS #2. (A) These measurements were averaged (data shown as ± SD) among 5 independent reviewers and the first and third division were significantly longer (*P < 0.05) in the embryos obtained after WSD consumption relative to after SCD intake. (B) Individual image frames from TLM videos of a representative SCD embryo showing normal bipolar divisions up to the 4-cell stage. (C) Similar imaging of a representative WSD embryo revealed a 1:4 cell multipolar division at the zygote stage. The cleavage furrows are denoted by red arrows in B and C. The corresponding full-length TLM movies of these 2 embryos can be viewed in Supplemental Video 1 (after SCD) and Supplemental Video 2 (after WSD). A paired t test, along with the logistic mixed effects regression models with random intercept, was used to determine statistical significance.