Serine and glycine physiology reversibly modulate retinal and peripheral nerve function.

Cell metabolism Pub Date : 2024-10-01 Epub Date: 2024-08-26 DOI:10.1016/j.cmet.2024.07.021
Esther W Lim, Regis J Fallon, Caleb Bates, Yoichiro Ideguchi, Takayuki Nagasaki, Michal K Handzlik, Emeline Joulia, Roberto Bonelli, Courtney R Green, Brendan R E Ansell, Maki Kitano, Ilham Polis, Amanda J Roberts, Shigeki Furuya, Rando Allikmets, Martina Wallace, Martin Friedlander, Christian M Metallo, Marin L Gantner
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Abstract

Metabolic homeostasis is maintained by redundant pathways to ensure adequate nutrient supply during fasting and other stresses. These pathways are regulated locally in tissues and systemically via the liver, kidney, and circulation. Here, we characterize how serine, glycine, and one-carbon (SGOC) metabolism fluxes across the eye, liver, and kidney sustain retinal amino acid levels and function. Individuals with macular telangiectasia (MacTel), an age-related retinal disease with reduced circulating serine and glycine, carrying deleterious alleles in SGOC metabolic enzymes exhibit an exaggerated reduction in circulating serine. A Phgdh+/- mouse model of this haploinsufficiency experiences accelerated retinal defects upon dietary serine/glycine restriction, highlighting how otherwise silent haploinsufficiencies can impact retinal health. We demonstrate that serine-associated retinopathy and peripheral neuropathy are reversible, as both are restored in mice upon serine supplementation. These data provide molecular insights into the genetic and metabolic drivers of neuro-retinal dysfunction while highlighting therapeutic opportunities to ameliorate this pathogenesis.

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丝氨酸和甘氨酸生理学可逆地调节视网膜和周围神经功能。
代谢平衡是通过冗余途径来维持的,以确保在禁食和其他压力下有充足的营养供应。这些途径通过肝脏、肾脏和血液循环在组织局部和全身进行调节。在这里,我们描述了丝氨酸、甘氨酸和一碳(SGOC)代谢如何通过眼睛、肝脏和肾脏的通路维持视网膜氨基酸水平和功能。黄斑毛细血管扩张症(MacTel)是一种与年龄有关的视网膜疾病,循环中的丝氨酸和甘氨酸减少。这种单倍体缺陷的 Phgdh+/- 小鼠模型在限制饮食中的丝氨酸/甘氨酸时会加速视网膜缺陷,这突显了原本无声的单倍体缺陷是如何影响视网膜健康的。我们证明,丝氨酸相关视网膜病变和周围神经病变是可逆的,因为补充丝氨酸后,小鼠的视网膜病变和周围神经病变均可恢复。这些数据从分子角度揭示了神经-视网膜功能障碍的遗传和代谢驱动因素,同时强调了改善这种发病机制的治疗机会。
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