Mechanism and function of CEACAM1 splice isoforms.

IF 4.4 3区 医学 Q1 MEDICINE, GENERAL & INTERNAL European Journal of Clinical Investigation Pub Date : 2024-12-01 DOI:10.1111/eci.14350
Kenneth J Dery, Sonia M Najjar, Nicole Beauchemin, John E Shively, Jerzy W Kupiec-Weglinski
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Abstract

Background: Alternative splicing is a fundamental mechanism in the post-transcriptional regulation of genes. The multifunctional transmembrane glycoprotein receptor carcinoembryonic antigen-related cell adhesion molecule 1 (CEACAM1) undergoes extensive alternative splicing to allow for tunable functions in cell signalling, adhesion and modulation of immune and metabolic responses. Splice isoforms that differ in their ectodomain and short or long cytoplasmic tail (CEACAM1-S/CEACAM1-L) have distinct functional roles. The mechanisms that regulate CEACAM1 RNA splicing remain elusive.

Methods: This narrative review summarizes the current knowledge of the mechanism and function of CEACAM1 splice isoforms. Historical perspectives address the biological significance of the glycosylated Ig domains, the variable exon 7, and phosphorylation events that dictate its signal transduction pathways. The use of small antisense molecules to target mis-spliced variable exon 7 is discussed.

Results: The Ig variable-like N domain mediates cell adhesion and immune checkpoint inhibitory functions. Gly and Tyr residues in the transmembrane (TM) domain are essential for dimerization. Calmodulin, Calcium/Calmodulin-dependent protein kinase II delta (CamK2D), Actin and Annexin A2 are binding partners of CEACAM1-S. Homology studies of the muCEACAM1-S and huCEACAM1-S TM predict differences in their signal transduction pathways. Hypoxia-inducible factor 1-α (HIF-1-α) induces alternative splicing to produce CEACAM1-S under limited oxygen conditions. Antisense small molecules directed to exon 7 may correct faulty expression of the short and long cytoplasmic tail splicing isoforms.

Conclusion: More pre-clinical and clinical studies are needed to elucidate the precise mechanisms by which CEACAM1 RNA splicing may be exploited to develop targeted interventions towards novel therapeutic strategies.

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背景:替代剪接是基因转录后调控的基本机制。多功能跨膜糖蛋白受体癌胚抗原相关细胞粘附分子 1(CEACAM1)经历了广泛的剪接替代过程,从而在细胞信号、粘附以及免疫和代谢反应调节等方面实现了可调功能。外结构域和长短胞质尾不同的剪接异构体(CEACAM1-S/CEACAM1-L)具有不同的功能作用。CEACAM1 RNA剪接的调控机制仍未确定:本综述概述了目前有关 CEACAM1 剪接异构体的机制和功能的知识。从历史的角度探讨了糖基化 Ig 结构域、可变外显子 7 以及决定其信号转导途径的磷酸化事件的生物学意义。还讨论了使用反义小分子来靶向错误剪接的可变外显子 7 的问题:Ig可变样N结构域介导细胞粘附和免疫检查点抑制功能。跨膜(TM)结构域中的 Gly 和 Tyr 残基对二聚化至关重要。钙调蛋白、钙/钙调蛋白依赖性蛋白激酶 II delta(CamK2D)、肌动蛋白和附件蛋白 A2 是 CEACAM1-S 的结合伙伴。对 muCEACAM1-S 和 huCEACAM1-S TM 的同源性研究预测了它们信号转导途径的差异。缺氧诱导因子 1-α(HIF-1-α)诱导替代剪接,在有限的氧气条件下产生 CEACAM1-S。针对第7外显子的反义小分子可纠正短胞质尾和长胞质尾剪接异构体的错误表达:需要进行更多临床前和临床研究,以阐明 CEACAM1 RNA 剪接的精确机制,从而开发出新型治疗策略的靶向干预措施。
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CiteScore
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期刊介绍: EJCI considers any original contribution from the most sophisticated basic molecular sciences to applied clinical and translational research and evidence-based medicine across a broad range of subspecialties. The EJCI publishes reports of high-quality research that pertain to the genetic, molecular, cellular, or physiological basis of human biology and disease, as well as research that addresses prevalence, diagnosis, course, treatment, and prevention of disease. We are primarily interested in studies directly pertinent to humans, but submission of robust in vitro and animal work is also encouraged. Interdisciplinary work and research using innovative methods and combinations of laboratory, clinical, and epidemiological methodologies and techniques is of great interest to the journal. Several categories of manuscripts (for detailed description see below) are considered: editorials, original articles (also including randomized clinical trials, systematic reviews and meta-analyses), reviews (narrative reviews), opinion articles (including debates, perspectives and commentaries); and letters to the Editor.
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