Bernardo C Antunes, Tomás Mateus, Vanessa A Morais
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引用次数: 0
Abstract
The maintenance of energetic homeostasis relies on a tight balance between glycolysis and mitochondrial oxidative phosphorylation. The case of the brain is a peculiar one, as although entailing a constant demand for energy, it is believed to rely mostly on glucose, particularly at the level of neurons. Nonetheless, this has been challenged by studies that show that alternatives such as lactate, ketone bodies, and glutamate can be used as fuels to sustain neuronal activity. The importance of fatty acid (FA) metabolism to this extent is still unclear, albeit sustaining a significant energetic output when compared to glucose. While several authors postulate a possible role of FA for the energetic homeostasis of the brain, several others point out the intrinsic features of this pathway that make its contribution difficult to explain in the context of neuronal bioenergetics. Moreover, fueling preference at the synapse level is yet to be uncovered. In this review, we discuss in detail the arguments for and against the brain usage of FA. Furthermore, we postulate that the importance of this fuel may be greater at the synapse, where local mitochondria possess a set of features that enable a more effective usage of this fuel source.
维持能量平衡有赖于糖酵解和线粒体氧化磷酸化之间的紧密平衡。大脑的情况比较特殊,虽然对能量的需求持续不断,但人们认为它主要依赖葡萄糖,尤其是在神经元层面。然而,研究表明,乳酸、酮体和谷氨酸等替代品可用作维持神经元活动的燃料,这就对这一观点提出了挑战。尽管与葡萄糖相比,脂肪酸(FA)新陈代谢能维持大量能量输出,但其在这方面的重要性仍不明确。虽然有几位学者推测脂肪酸可能在大脑能量平衡中发挥作用,但也有几位学者指出了这一途径的固有特征,这使得其在神经元生物能量学中的贡献难以解释。此外,突触水平的燃料偏好也尚未被发现。在这篇综述中,我们详细讨论了支持和反对大脑使用 FA 的论点。此外,我们推测这种燃料在突触处的重要性可能更大,因为突触处的线粒体具有一系列特征,能够更有效地利用这种燃料来源。
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