RFamide 相关肽-1 的结构-活性研究鉴定出一种功能性受体拮抗剂和参与收缩性能的新型心肌细胞信号转导途径。

Structure-activity studies of RFamide-related peptide-1 identify a functional receptor antagonist and novel cardiac myocyte signaling pathway involved in contractile performance.

机构信息

Department of Biological Chemistry, The University of Michigan Medical School , Ann Arbor, Michigan 48109, USA.

出版信息

J Med Chem. 2012 Sep 13;55(17):7736-45. doi: 10.1021/jm300760m. Epub 2012 Aug 30.

DOI:10.1021/jm300760m

PMID:22909119

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3475511/

Abstract

Human RFamide-related peptide-1 (hRFRP-1, MPHSFANLPLRF-NH(2)) binds to neuropeptide FF receptor 2 (NPFF(2)R) to dramatically diminish cardiovascular performance. hRFRP-1 and its signaling pathway may provide targets to address cardiac dysfunction. Here, structure-activity relationship, transcript, Ca(2+) transient, and phospholabeling data indicate the presence of a hRFRP-1 pathway in cardiomyocytes. Alanyl-substituted and N-terminal truncated analogues identified that R(11) was essential for activity, hRFRP-1((8-12)) mimicked hRFRP-1, and [A(11)]hRFRP-1((8-12)) antagonized the effect of hRFRP-1 in cellular and integrated cardiac performance. RFRP and NPFF(2)R transcripts were amplified from cardiomyocytes and heart. Maintenance of the Ca(2+) transient when hRFRP-1 impaired myocyte shortening indicated the myofilament was its primary downstream target. Enhanced myofilament protein phosphorylation detected after hRFRP-1 treatment but absent in [A(11)]hRFRP-1((8-12))-treated cells was consistent with this result. Protein kinase C (PKC) but not PKA inhibitor diminished the influence of hRFRP-1 on the Ca(2+) transient. Molecules targeting this pathway may help address cardiovascular disease.

摘要

人 RFamide 相关肽-1（hRFRP-1，MPHSFANLPLRF-NH(2)）与神经肽 FF 受体 2（NPFF(2)R）结合，显著降低心血管功能。hRFRP-1 及其信号通路可能为解决心脏功能障碍提供靶点。本文的结构-活性关系、转录、Ca(2+)瞬变和磷酸化标记数据表明，心肌细胞中存在 hRFRP-1 通路。丙氨酰取代和 N 端截断类似物鉴定出 R(11)对活性是必需的，hRFRP-1((8-12))模拟 hRFRP-1，[A(11)]hRFRP-1((8-12))拮抗 hRFRP-1 在细胞和整体心脏功能中的作用。RFRP 和 NPFF(2)R 转录本从心肌细胞和心脏中扩增。当 hRFRP-1 损害肌球蛋白缩短时，Ca(2+)瞬变得到维持，表明肌球蛋白丝是其主要的下游靶标。hRFRP-1 处理后检测到增强的肌球蛋白丝蛋白磷酸化，但在 [A(11)]hRFRP-1((8-12))处理的细胞中不存在，这与该结果一致。蛋白激酶 C（PKC）而非蛋白激酶 A（PKA）抑制剂减弱了 hRFRP-1 对 Ca(2+)瞬变的影响。针对该途径的分子可能有助于解决心血管疾病。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e655/3475511/d9e7473493cb/nihms-404661-f0001.jpg

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