L-type calcium channel blockade worsens glucose tolerance and β-cell function in C57BL6/J mice exposed to intermittent hypoxia.

IF 4.2 2区医学 Q1 ENDOCRINOLOGY & METABOLISM

American journal of physiology. Endocrinology and metabolism Pub Date : 2025-02-01 Epub Date: 2025-01-06 DOI:10.1152/ajpendo.00423.2023

Stanley M Chen Cardenas, Tess A Baker, Larissa A Shimoda, Ernesto Bernal-Mizrachi, Naresh M Punjabi

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引用次数: 0

Abstract

Intermittent hypoxemia (IH), a pathophysiologic consequence of obstructive sleep apnea (OSA), adversely affects insulin sensitivity, insulin secretion, and glucose tolerance. Nifedipine, an L-type calcium channel blocker frequently used for the treatment of hypertension, can also impair insulin sensitivity and secretion. However, the cumulative and interactive repercussions of IH and nifedipine on glucose homeostasis have not been previously investigated. Adult male C57BL6/J mice were exposed to either nifedipine or vehicle concurrently with IH or intermittent air (IA) over 5 days. IH exposure entailed cycling fractional-inspired oxygen levels between 0.21 and 0.055 at a rate of 60 events/h. Nifedipine (20 mg/kg/day) or vehicle was administered via subcutaneous osmotic pumps resulting in four groups of mice: IA-vehicle (control), IA-nifedipine, IH-vehicle, and IH-nifedipine. Compared with IA (control), IH increased fasting glucose (mean Δ: 33.0 mg/dL; P < 0.001) and insulin (mean Δ: 0.53 ng/mL; P < 0.001) with nifedipine having no independent effect. Furthermore, glucose tolerance was worse with nifedipine alone, and IH further exacerbated the impairment in glucose disposal (P = 0.013 for interaction). Nifedipine also decreased glucose-stimulated insulin secretion and the insulinogenic index, with addition of IH attenuating those measures further. There were no discernible alterations in insulin biosynthesis/processing, insulin content, or islet morphology. These findings underscore the detrimental impact of IH on insulin sensitivity and glucose tolerance while highlighting that nifedipine exacerbates these disturbances through impaired β-cell function. Consequently, cautious use of L-type calcium channel blockers is warranted in patients with OSA, particularly in those at risk for type 2 diabetes.NEW & NOTEWORTHY The results of this study demonstrate the interaction between intermittent hypoxemia (IH) and nifedipine in a murine model. IH raises fasting glucose and insulin levels, with nifedipine exacerbating these disturbances. Glucose tolerance worsens when nifedipine is administered alone, and IH magnifies the impairment in glucose disposal. These findings raise the possibility of potential deleterious effects of L-type calcium channel blockers in patients with obstructive sleep apnea (OSA).

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l型钙通道阻断使间歇性缺氧的C57BL6/J小鼠糖耐量和β细胞功能恶化。

间歇性低氧血症（IH）是阻塞性睡眠呼吸暂停（OSA）的病理生理后果，对胰岛素敏感性、胰岛素分泌和葡萄糖耐量产生不利影响。硝苯地平，一种常用于治疗高血压的l型钙通道阻滞剂，也会损害胰岛素敏感性和分泌。然而，IH和硝苯地平对葡萄糖稳态的累积和相互作用的影响尚未被研究过。成年雄性C57BL6/J小鼠在IH或间歇空气（IA）的同时暴露于硝苯地平或对照品5天。IH暴露需要以60次/小时的速率在0.21和0.055之间循环分数吸入氧水平。通过皮下渗透泵给药硝苯地平（20mg /kg/天）或对照剂，产生4组小鼠：ia -对照剂（对照组）、ia -硝苯地平、ih -对照剂和ih -硝苯地平。与IA（对照组）相比，IH使空腹血糖升高(平均Δ： 33.0 mg/dL；P < 0.001)和胰岛素(平均Δ： 0.53 ng/mL；P < 0.001)，硝苯地平无独立作用。此外，单独使用硝苯地平的糖耐量更差，IH进一步加剧了葡萄糖处理的损害（相互作用P = 0.013）。硝苯地平还能降低葡萄糖刺激的胰岛素分泌和胰岛素生成指数，而IH的加入进一步减弱了这些指标。在胰岛素的生物合成/加工、胰岛素含量或胰岛形态方面没有明显的改变。这些发现强调了IH对胰岛素敏感性和葡萄糖耐量的有害影响，同时强调硝苯地平通过破坏β细胞功能加剧了这些干扰。因此，对于OSA患者，尤其是有2型糖尿病风险的患者，应谨慎使用l型钙通道阻滞剂。新的和值得注意的是，这项研究的结果证明了小鼠模型中间歇性低氧血症（IH）和硝苯地平之间的相互作用。IH升高空腹血糖和胰岛素水平，硝苯地平加重这些紊乱。当硝苯地平单独使用时，葡萄糖耐量恶化，并且IH放大了葡萄糖处理的损害。这些发现提高了l型钙通道阻滞剂对阻塞性睡眠呼吸暂停（OSA）患者潜在有害影响的可能性。

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来源期刊

American journal of physiology. Endocrinology and metabolism 医学-内分泌学与代谢

CiteScore

9.80

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： The American Journal of Physiology-Endocrinology and Metabolism publishes original, mechanistic studies on the physiology of endocrine and metabolic systems. Physiological, cellular, and molecular studies in whole animals or humans will be considered. Specific themes include, but are not limited to, mechanisms of hormone and growth factor action; hormonal and nutritional regulation of metabolism, inflammation, microbiome and energy balance; integrative organ cross talk; paracrine and autocrine control of endocrine cells; function and activation of hormone receptors; endocrine or metabolic control of channels, transporters, and membrane function; temporal analysis of hormone secretion and metabolism; and mathematical/kinetic modeling of metabolism. Novel molecular, immunological, or biophysical studies of hormone action are also welcome.