Exploring the five-paced viper (Deinagkistrodon acutus) venom proteome by integrating a combinatorial peptide ligand library approach with shotgun LC-MS/MS.

IF 1.8 3区 医学 Q4 TOXICOLOGY Journal of Venomous Animals and Toxins Including Tropical Diseases Pub Date : 2021-10-25 eCollection Date: 2021-01-01 DOI:10.1590/1678-9199-JVATITD-2020-0196
Xuekui Nie, Qiyi He, Bin Zhou, Dachun Huang, Junbo Chen, Qianzi Chen, Shuqing Yang, Xiaodong Yu
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Abstract

Background: Snake venoms are complex mixtures of toxic proteins or peptides encoded by various gene families that function synergistically to incapacitate prey. In the present study, in order to unravel the proteomic repertoire of Deinagkistrodon acutus venom, some trace abundance components were analyzed.

Methods: Shotgun proteomic approach combined with shotgun nano-LC-ESI-MS/MS were employed to characterize the medically important D. acutus venom, after collected samples were enriched with the combinatorial peptide ligand library (CPLL).

Results: This avenue helped us find some trace components, undetected before, in D. acutus venom. The results indicated that D. acutus venom comprised 84 distinct proteins from 10 toxin families and 12 other proteins. These results are more than twice the number of venom components obtained from previous studies, which were only 29 distinct proteins obtained through RP-HPLC for the venom of the same species. The present results indicated that in D. acutus venom, the most abundant components (66.9%) included metalloproteinases, serine proteinases, and C-type lectin proteins; the medium abundant components (13%) comprised phospholipases A2 (PLA2) and 5'-nucleotidases and nucleases; whereas least abundant components (6%) were aminopeptidases, L-amino acid oxidases (LAAO), neurotoxins and disintegrins; and the trace components. The last were undetected before the use of conventional shotgun proteomics combined with shotgun nano-LC-ESI-MS/MS, such as cysteine-rich secretory proteins Da-CRPa, phospholipases B-like 1, phospholipases B (PLB), nerve growth factors (NGF), glutaminyl-peptide cyclortransferases (QC), and vascular non-inflammatory molecules 2 (VNN2).

Conclusion: These findings demonstrated that the CPLL enrichment method worked well in finding the trace toxin proteins in D. acutus venom, in contrast with the previous venomic characterization of D. acutus by conventional LC-MS/MS. In conclusion, this approach combined with the CPLL enrichment was effective for allowing us to explore the hidden D. acutus venomic profile and extended the list of potential venom toxins.

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将组合肽配体库方法与枪式 LC-MS/MS 相结合,探索五步蛇(Deinagkistrodon acutus)毒液蛋白质组。
背景:蛇毒是由不同基因家族编码的毒性蛋白质或肽的复杂混合物,可协同作用使猎物丧失能力。在本研究中,为了揭示Deinagkistrodon acutus毒液的蛋白质组谱系,对一些痕量丰度成分进行了分析:方法:在用组合肽配体文库(CPLL)富集收集的样本后,采用散弹枪蛋白质组学方法结合散弹枪纳米液相色谱-电喷雾串联质谱/质谱(shotgun nano-LC-ESI-MS/MS )对具有重要医学价值的Deinagkistrodon acutus毒液进行表征:结果:这一方法帮助我们发现了尖吻蝮蛇毒液中一些以前未检测到的痕量成分。结果表明,D. acutus 毒液由来自 10 个毒素家族的 84 种不同蛋白质和 12 种其他蛋白质组成。这些结果是之前研究获得的毒液成分数量的两倍多,之前的研究通过 RP-HPLC 对同一物种的毒液仅获得了 29 种不同的蛋白质。本研究结果表明,D. acutus毒液中含量最高的成分(66.9%)包括金属蛋白酶、丝氨酸蛋白酶和C型凝集素蛋白;含量中等的成分(13%)包括磷脂酶A2(PLA2)、5'-核苷酸酶和核酶;含量最低的成分(6%)包括氨基肽酶、L-氨基酸氧化酶(LAAO)、神经毒素和崩解素;以及痕量成分。在使用传统的枪式蛋白质组学与枪式纳米液相色谱-电喷雾串联质谱/质谱联用技术之前,最后一种成分是未被发现的,如富半胱氨酸分泌蛋白 Da-CRPa、类磷脂酶 B 1、磷脂酶 B (PLB)、神经生长因子 (NGF)、谷氨酰肽环转酶 (QC) 和血管非炎性分子 2 (VNN2):这些研究结果表明,CPLL 富集法能很好地发现尖吻蝮蛇毒液中的痕量毒素蛋白,这与之前通过传统的 LC-MS/MS 方法对尖吻蝮蛇毒液进行表征的结果截然不同。总之,这种方法与 CPLL 富集相结合,有效地探索了隐藏的尖吻蝮毒液特征,并扩展了潜在毒液毒素的列表。
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来源期刊
CiteScore
4.80
自引率
8.30%
发文量
39
审稿时长
6-12 weeks
期刊介绍: Journal of Venomous Animals and Toxins including Tropical Diseases (JVATiTD) is a non-commercial academic open access publication dedicated to research on all aspects of toxinology, venomous animals and tropical diseases. Its interdisciplinary content includes original scientific articles covering research on toxins derived from animals, plants and microorganisms. Topics of interest include, but are not limited to:systematics and morphology of venomous animals;physiology, biochemistry, pharmacology and immunology of toxins;epidemiology, clinical aspects and treatment of envenoming by different animals, plants and microorganisms;development and evaluation of antivenoms and toxin-derivative products;epidemiology, clinical aspects and treatment of tropical diseases (caused by virus, bacteria, algae, fungi and parasites) including the neglected tropical diseases (NTDs) defined by the World Health Organization.
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