Sancho Solis Raquel, Ge Ying, Walker Jeffery W
Department of Physiology, University of Wisconsin-Madison, Madison, WI, 53706, USA.
J Muscle Res Cell Motil. 2008;29(6-8):203-12. doi: 10.1007/s10974-009-9168-y. Epub 2009 Jan 23.
Heterotrimeric cardiac troponin (cTn) is a critical component of the thin filament regulatory complex in cardiac muscle. Two of the three subunits, cTnI and cTnT, are subject to post-translational modifications such as proteolysis and phosphorylation, but linking modification patterns to function remains a major challenge. To obtain a global view of the biochemical state of cTn in native tissue, we performed high resolution top-down mass spectrometry of cTn heterotrimers from healthy adult rat hearts. cTn heterotrimers were affinity purified, desalted and then directly subjected to mass spectrometry using a 7 Tesla Thermo LTQ-FT-ICR instrument equipped with an ESI source. Molecular ions for N-terminally processed and acetylated cTnI and cTnT were readily detected as were other post-translationally modified forms of these proteins. cTnI was phosphorylated with a distribution of un-, mono- and bisphosphorylated forms of 41 +/- 3%, 46 +/- 1%, 13 +/- 3%, respectively. cTnT was predominantly monophosphorylated and partially proteolyzed at the Glu(29)-Pro(30) peptide bond. Also observed in high resolution spectra were 'shadow' peaks of similar intensity to 'parent' peaks exhibiting masses of cTnI+16 Da and cTnT+128 Da, subsequently shown by tandem mass spectrometry (MS/MS) to be single amino acid polymorphisms. Intact and protease-digested cTn subunits were fragmented by electron capture dissociation or collision activated dissociation to localize an Ala/Ser polymorphism at residue 7 of cTnI. Similar analysis of cTnT localized an additional Gln within a three residue alternative splice site beginning at residue 192. Besides being able to provide unique insights into the global state of post-translational modification of cTn subunits, high resolution top-down mass spectrometry readily revealed naturally occurring single amino acid sequence variants including a genetic polymorphism at residue 7 in cTnI, and an alternative splice isoform that affects a putative hinge region around residue 192 of cTnT, all of which co-exist within a single rat heart.
异三聚体心肌肌钙蛋白(cTn)是心肌细肌丝调节复合物的关键组成部分。三个亚基中的两个,即cTnI和cTnT,会经历蛋白水解和磷酸化等翻译后修饰,但将修饰模式与功能联系起来仍然是一项重大挑战。为了全面了解天然组织中cTn的生化状态,我们对来自健康成年大鼠心脏的cTn异三聚体进行了高分辨率的自上而下质谱分析。cTn异三聚体经过亲和纯化、脱盐,然后使用配备电喷雾电离(ESI)源的7特斯拉Thermo LTQ-FT-ICR仪器直接进行质谱分析。很容易检测到N端加工和乙酰化的cTnI和cTnT的分子离子,以及这些蛋白质的其他翻译后修饰形式。cTnI的磷酸化形式中,未磷酸化、单磷酸化和双磷酸化形式的分布分别为41±3%、46±1%、13±3%。cTnT主要为单磷酸化,并且在Glu(29)-Pro(30)肽键处部分被蛋白水解。在高分辨率光谱中还观察到与“母本”峰强度相似的“影子”峰,其质量为cTnI + 16 Da和cTnT + 128 Da,随后通过串联质谱(MS/MS)表明它们是单氨基酸多态性。完整的和经蛋白酶消化的cTn亚基通过电子捕获解离或碰撞激活解离进行片段化,以定位cTnI第7位残基处的Ala/Ser多态性。对cTnT的类似分析在从第192位残基开始的三个残基可变剪接位点内定位了一个额外的Gln。除了能够为cTn亚基的翻译后修饰全局状态提供独特见解外,高分辨率的自上而下质谱分析还很容易揭示天然存在的单氨基酸序列变体,包括cTnI第7位残基处的遗传多态性,以及一种影响cTnT第192位残基周围假定铰链区的可变剪接异构体,所有这些都共存于单个大鼠心脏中。