Rapeseed (canola) oil aggravates metabolic syndrome-like conditions in male but not in female stroke-prone spontaneously hypertensive rats (SHRSP)

[Display omitted] •Canola oil shortens life of male SHRSP.•Testis is the target of canola oil toxicity.•Inhibition of negative regulation by testosterone of aldosterone production may be a trigger of canola oil toxicity.•Facilitation of hypertension by aldosterone may lead to life-shortening.•Increa...

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Veröffentlicht in:Toxicology reports 2022-01, Vol.9, p.256-268
Hauptverfasser: Nishikawa, Mai, Ohara, Naoki, Naito, Yukiko, Saito, Yoshiaki, Amma, Chihiro, Tatematsu, Kenjiro, Baoyindugurong, Jinhua, Miyazawa, Daisuke, Hashimoto, Yoko, Okuyama, Harumi
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Sprache:eng
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Zusammenfassung:[Display omitted] •Canola oil shortens life of male SHRSP.•Testis is the target of canola oil toxicity.•Inhibition of negative regulation by testosterone of aldosterone production may be a trigger of canola oil toxicity.•Facilitation of hypertension by aldosterone may lead to life-shortening.•Increased plasma lipids by canola oil have no relevance to life-shortening. This study was conducted to investigate whether or not there are sex differences in canola oil (CAN)-induced adverse events in the rat and to understand the involvement and the role of testosterone in those events, including life-shortening. Stroke-prone spontaneously hypertensive rats (SHRSP) of both sexes were fed a diet containing 10 wt/wt% soybean oil (SOY, control) or CAN as the sole dietary fat. The survival of the males fed the CAN diet was significantly shorter than that of those fed the SOY diet. In contrast, the survival of the females was not affected by CAN. The males fed the CAN diet showed elevated blood pressure, thrombopenia and insulin-tolerance, which are major symptoms of metabolic syndrome, whereas such changes by the CAN diet were not found in the females. Plasma testosterone was significantly lower in animals of both sexes fed the CAN diet than in those fed the SOY diet, but interestingly, the lowered testosterone was accompanied by a marked increase in plasma aldosterone only in the males. These results demonstrate significant sex differences in CAN-toxicity and suggest that those sex differences may be attributable to the increased aldosterone level, which triggers aggravation of the genetic diseases specific to SHRSP, that is, metabolic syndrome-like conditions, but only in the males. The present results also suggest that testosterone may negatively regulate aldosterone production in the physiology of the males, and the inhibition of that negative regulation caused by the CAN diet is one of the possible causes of the adverse events.
ISSN:2214-7500
2214-7500
DOI:10.1016/j.toxrep.2022.01.011