Instituto de Tecnologia Química e Biológica, Universidade Nova de Lisboa, Oeiras, Portugal.
Proteomics. 2011 Sep;11(17):3587-92. doi: 10.1002/pmic.201000745. Epub 2011 Jul 21.
Sea star coelomic fluid is in contact with all internal organs, carrying signaling molecules and a large population of circulating cells, the coelomocytes. These cells, also known as echinoderm blood cells, are responsible for the innate immune responses and are also known to have an important role in the first stage of regeneration, i.e. wound closure, necessary to prevent disruption of the body fluid balance and to limit the invasion of pathogens. This study focuses on the proteome characterization of these multifunctional cells. The identification of 358 proteins was achieved using a combination of two techniques for protein separation (1-D SDS-PAGE followed by nanoLC and 2-D SDS-PAGE) and MALDI-TOF/TOF MS for protein identification. To our knowledge, the present report represents the first comprehensive list of sea star coelomocyte proteins, constituting an important database to validate many echinoderm-predicted proteins. Evidence for new pathways in these particular echinoderm cells are also described, and thus representing a valuable resource to stimulate future studies aiming to unravel the homology with vertebrate immune cells and particularly the origins of the immune system itself.
海星体腔液与所有内部器官接触,携带信号分子和大量循环细胞,即体腔细胞。这些细胞也被称为棘皮动物血细胞,负责先天免疫反应,并且在再生的第一阶段(即伤口闭合)中也起着重要作用,这对于防止体液平衡的破坏和限制病原体的入侵是必要的。本研究专注于这些多功能细胞的蛋白质组学特征。使用两种蛋白质分离技术(1-D SDS-PAGE 后进行纳升液相色谱和 2-D SDS-PAGE)和 MALDI-TOF/TOF MS 进行蛋白质鉴定,共鉴定到 358 种蛋白质。据我们所知,本报告代表了海星体腔细胞蛋白质的首个全面列表,为验证许多棘皮动物预测的蛋白质构成了重要的数据库。还描述了这些特定棘皮动物细胞中新途径的证据,因此为刺激未来旨在揭示与脊椎动物免疫细胞的同源性,特别是免疫系统本身起源的研究提供了有价值的资源。
