Fasting upregulates the monocarboxylate transporter MCT1 at the rat blood-brain barrier through PPAR δ activation

IF 5.9 1区医学 Q1 NEUROSCIENCES Fluids and Barriers of the CNS Pub Date : 2024-04-08 DOI:10.1186/s12987-024-00526-8

Stéphanie Chasseigneaux, Véronique Cochois-Guégan, Lucas Lecorgne, Murielle Lochus, Sophie Nicolic, Corinne Blugeon, Laurent Jourdren, David Gomez-Zepeda, Stefan Tenzer, Sylvia Sanquer, Valérie Nivet-Antoine, Marie-Claude Menet, Jean-Louis Laplanche, Xavier Declèves, Salvatore Cisternino, Bruno Saubaméa

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Abstract

The blood-brain barrier (BBB) is pivotal for the maintenance of brain homeostasis and it strictly regulates the cerebral transport of a wide range of endogenous compounds and drugs. While fasting is increasingly recognized as a potential therapeutic intervention in neurology and psychiatry, its impact upon the BBB has not been studied. This study was designed to assess the global impact of fasting upon the repertoire of BBB transporters. We used a combination of in vivo and in vitro experiments to assess the response of the brain endothelium in male rats that were fed ad libitum or fasted for one to three days. Brain endothelial cells were acutely purified and transcriptionaly profiled using RNA-Seq. Isolated brain microvessels were used to assess the protein expression of selected BBB transporters through western blot. The molecular mechanisms involved in the adaptation to fasting were investigated in primary cultured rat brain endothelial cells. MCT1 activity was probed by in situ brain perfusion. Fasting did not change the expression of the main drug efflux ATP-binding cassette transporters or P-glycoprotein activity at the BBB but modulated a restrictive set of solute carrier transporters. These included the ketone bodies transporter MCT1, which is pivotal for the brain adaptation to fasting. Our findings in vivo suggested that PPAR δ, a major lipid sensor, was selectively activated in brain endothelial cells in response to fasting. This was confirmed in vitro where pharmacological agonists and free fatty acids selectively activated PPAR δ, resulting in the upregulation of MCT1 expression. Moreover, dosing rats with a specific PPAR δ antagonist blocked the upregulation of MCT1 expression and activity induced by fasting. Altogether, our study shows that fasting affects a selected set of BBB transporters which does not include the main drug efflux transporters. Moreover, we describe a previously unknown selective adaptive response of the brain vasculature to fasting which involves PPAR δ and is responsible for the up-regulation of MCT1 expression and activity. Our study opens new perspectives for the metabolic manipulation of the BBB in the healthy or diseased brain.

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空腹通过 PPAR δ 激活上调大鼠血脑屏障上的单羧酸盐转运体 MCT1

血脑屏障（BBB）是维持大脑平衡的关键，它严格控制着多种内源性化合物和药物的脑转运。虽然禁食越来越被认为是神经学和精神病学的一种潜在治疗干预措施，但其对 BBB 的影响尚未得到研究。本研究旨在评估禁食对 BBB 转运体的整体影响。我们采用体内和体外实验相结合的方法来评估自由进食或禁食一至三天的雄性大鼠脑内皮细胞的反应。急性纯化脑内皮细胞并使用 RNA-Seq 进行转录分析。利用分离的脑微血管通过Western印迹来评估选定的BBB转运体的蛋白表达。在原代培养的大鼠脑内皮细胞中研究了适应禁食的分子机制。通过原位脑灌注检测了MCT1的活性。禁食不会改变主要药物外流 ATP 结合盒转运体的表达或 P 糖蛋白在 BBB 的活性，但会调节一组限制性溶质载体转运体。其中包括酮体转运体 MCT1，它对大脑适应禁食起着关键作用。我们在体内的研究结果表明，PPAR δ（一种主要的脂质传感器）在大脑内皮细胞中被选择性地激活，以应对禁食。这一点在体外得到了证实，药理激动剂和游离脂肪酸可选择性地激活 PPAR δ，导致 MCT1 表达上调。此外，给大鼠服用特异性 PPAR δ 拮抗剂可阻断禁食诱导的 MCT1 表达和活性上调。总之，我们的研究表明，禁食会影响一组选定的 BBB 转运体，其中不包括主要的药物外流转运体。此外，我们还描述了一种以前未知的脑血管对禁食的选择性适应反应，这种反应涉及 PPAR δ，是 MCT1 表达和活性上调的原因。我们的研究为在健康或患病大脑中操纵 BBB 的新陈代谢开辟了新的前景。

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来源期刊

Fluids and Barriers of the CNS Neuroscience-Developmental Neuroscience

CiteScore

10.70

自引率

8.20%

发文量

审稿时长

14 weeks

期刊介绍： "Fluids and Barriers of the CNS" is a scholarly open access journal that specializes in the intricate world of the central nervous system's fluids and barriers, which are pivotal for the health and well-being of the human body. This journal is a peer-reviewed platform that welcomes research manuscripts exploring the full spectrum of CNS fluids and barriers, with a particular focus on their roles in both health and disease. At the heart of this journal's interest is the cerebrospinal fluid (CSF), a vital fluid that circulates within the brain and spinal cord, playing a multifaceted role in the normal functioning of the brain and in various neurological conditions. The journal delves into the composition, circulation, and absorption of CSF, as well as its relationship with the parenchymal interstitial fluid and the neurovascular unit at the blood-brain barrier (BBB).