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一种古老单加氧酶对生物活性酰胺化肽合成的纤毛和细胞骨架功能至关重要。

Ciliary and cytoskeletal functions of an ancient monooxygenase essential for bioactive amidated peptide synthesis.

机构信息

Department of Molecular Biology and Biophysics, University of Connecticut Health Center, Farmington, CT, 06030, USA.

Department of Biochemistry and Biophysics, University of California San Francisco, San Francisco, CA, 94158, USA.

出版信息

Cell Mol Life Sci. 2019 Jun;76(12):2329-2348. doi: 10.1007/s00018-019-03065-w. Epub 2019 Mar 16.

DOI:10.1007/s00018-019-03065-w
PMID:30879092
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6529398/
Abstract

Many secreted peptides used for cell-cell communication require conversion of a C-terminal glycine to an amide for bioactivity. This reaction is catalyzed only by the integral membrane protein peptidylglycine α-amidating monooxygenase (PAM). PAM has been highly conserved and is found throughout the metazoa; PAM-like sequences are also present in choanoflagellates, filastereans, unicellular and colonial chlorophyte green algae, dinoflagellates and haptophytes. Recent studies have revealed that in addition to playing a key role in peptidergic signaling, PAM also regulates ciliogenesis in vertebrates, planaria and chlorophyte algae, and is required for the stability of actin-based microvilli. Here we briefly introduce the basic principles involved in ciliogenesis, the sequential reactions catalyzed by PAM and the trafficking of PAM through the secretory and endocytic pathways. We then discuss the multi-faceted roles this enzyme plays in the formation and maintenance of cytoskeleton-based cellular protrusions and propose models for how PAM protein and amidating activity might contribute to ciliogenesis. Finally, we consider why some ciliated organisms lack PAM, and discuss the potential ramifications of ciliary localized PAM for the endocrine features commonly observed in patients with ciliopathies.

摘要

许多用于细胞间通讯的分泌肽需要将 C 末端甘氨酸转化为酰胺才能发挥生物活性。这种反应仅由整合膜蛋白肽基甘氨酸 α-酰胺化单加氧酶(PAM)催化。PAM 高度保守,存在于后生动物门;纤毛原生物、领鞭毛生物、单细胞和群体绿藻、甲藻和甲藻中也存在 PAM 样序列。最近的研究表明,除了在肽能信号转导中发挥关键作用外,PAM 还调节脊椎动物、涡虫和绿藻的纤毛发生,并且是肌动蛋白微绒毛稳定性所必需的。在这里,我们简要介绍纤毛发生涉及的基本原理、PAM 催化的连续反应以及 PAM 通过分泌和内吞途径的运输。然后,我们讨论了该酶在形成和维持基于细胞骨架的细胞突起中的多方面作用,并提出了 PAM 蛋白和酰胺化活性可能有助于纤毛发生的模型。最后,我们考虑了为什么一些有纤毛的生物缺乏 PAM,并讨论了纤毛定位的 PAM 对纤毛病患者中常见的内分泌特征的潜在影响。

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