Vitamin B5 is a context-dependent dietary regulator of nociception.

IF 2.1 3区生物学 Q3 GENETICS & HEREDITY

G3: Genes|Genomes|Genetics Pub Date : 2024-07-29 DOI:10.1093/g3journal/jkae174

Zina Hamoudi, Calvin Leung, Thang Manh Khuong, Gregory Cooney, G Gregory Neely

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引用次数: 0

Abstract

Chronic pain has an enormous impact on the quality of life of billions of patients, families, and caregivers worldwide. Current therapies do not adequately address pain for most patients. A basic understanding of the conserved genetic framework controlling pain may help us develop better, non-addictive pain therapies. Here we identify new conserved and druggable analgesic targets using tissue-specific functional genomic screening of candidate "pain" genes in the fly. From these efforts we describe 23 new pain genes for further consideration. This included Acsl, a fatty acid-metabolizing enzyme and mammalian orthologs are involved in arachidonic acid metabolism. Acsl knockdown and mutant larvae showed delayed nocifensive responses to localized and global noxious heat. Mechanistically, knockdown of Acsl reduced dendritic branching of nociceptive neurons. Surprisingly, the pain phenotype in these animals could be rescued through dietary intervention with vitamin B5, highlighting the interplay between genetics, metabolism and nutrient environment to establish sensory perception thresholds. Together, our functional genomic screening within the sensory nociceptor has identified new nociception genes that provide a better understanding of pain biology and can help guide the development of new painkillers.

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维生素 B5 是一种依赖于环境的痛觉膳食调节剂。

慢性疼痛对全球数十亿患者、家庭和护理人员的生活质量造成了巨大影响。目前的疗法不能充分解决大多数患者的疼痛问题。对控制疼痛的保守基因框架的基本了解可能有助于我们开发出更好的非成瘾性疼痛疗法。在这里，我们通过对苍蝇中的候选 "疼痛 "基因进行组织特异性功能基因组筛选，确定了新的保守和可药用的镇痛靶点。通过这些努力，我们描述了 23 个新的疼痛基因，以供进一步考虑。其中包括 Acsl，这是一种脂肪酸代谢酶，哺乳动物的直向同源物参与花生四烯酸代谢。Acsl基因敲除和突变体幼虫对局部和全局性毒热表现出延迟的痛觉反应。从机理上讲，Acsl的敲除减少了痛觉神经元的树突分支。令人惊讶的是，这些动物的疼痛表型可以通过维生素 B5 的饮食干预得到挽救，这突出表明遗传、代谢和营养环境之间的相互作用建立了感知阈值。总之，我们在感觉痛觉感受器内进行的功能基因组筛选发现了新的痛觉基因，这些基因能让我们更好地了解疼痛生物学，并有助于指导新止痛药的开发。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

G3: Genes|Genomes|Genetics GENETICS & HEREDITY-

CiteScore

5.10

自引率

3.80%

发文量

305

审稿时长

3-8 weeks

期刊介绍： G3: Genes, Genomes, Genetics provides a forum for the publication of high‐quality foundational research, particularly research that generates useful genetic and genomic information such as genome maps, single gene studies, genome‐wide association and QTL studies, as well as genome reports, mutant screens, and advances in methods and technology. The Editorial Board of G3 believes that rapid dissemination of these data is the necessary foundation for analysis that leads to mechanistic insights. G3, published by the Genetics Society of America, meets the critical and growing need of the genetics community for rapid review and publication of important results in all areas of genetics. G3 offers the opportunity to publish the puzzling finding or to present unpublished results that may not have been submitted for review and publication due to a perceived lack of a potential high-impact finding. G3 has earned the DOAJ Seal, which is a mark of certification for open access journals, awarded by DOAJ to journals that achieve a high level of openness, adhere to Best Practice and high publishing standards.

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