"Biting" of human cells by Entamoeba histolytica: a novel cytotoxic mechanism

溶组织内阿米巴“咬”人体细胞：一种新的细胞毒性机制

基本信息

批准号：
8975605
负责人：
Katherine S Ralston
金额：
$ 10.57万
依托单位：
UNIVERSITY OF CALIFORNIA AT DAVIS
依托单位国家：
美国
项目类别：
财政年份：
2014
资助国家：
美国
起止时间：
2014-12-01 至 2016-11-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8975605
关键词：
Address Amebic colitis Amoeba genus Area Biological Biological Assay Bite Calcium Cell Communication Cell Death Cell Line Cells Cellular biology Cessation of life Child Mortality Data Defect Disease Dose Drug Targeting Eating Entamoeba histolytica Epithelial Cells Extramural Activities Flow Cytometry Funding Genes Genetic Genetic Screening Greek Human Human Bites Image Immune Infection Ingestion Intestines Invaded Investigation K22 Award Kinetics Knowledge Laboratories Life Measures Membrane Microscopy Molecular Morbidity - disease rate Mus Names Nature Parasites Parasitic Diseases Parasitic infection Pathogenesis Pathology Pathway interactions Principal Investigator Proteins Publications Role Signal Transduction Source Tissues Toxin VDAC1 gene Vaccine Therapy Virulence Virulence Factors Work base cell killing collaborative environment cytotoxic design experience fighting in vivo inhibitor/antagonist innovation insight killings knock-down mutant new technology new therapeutic target novel novel strategies novel therapeutics pathogen prevent protozoan amoebapore proteins tool

项目摘要

DESCRIPTION (provided by applicant): I propose to study the pathogenesis of amoebic colitis, a global parasitic infection and a major source of morbidity and mortality of children. Entamoeba histolytica was named "histolytica" for its destruction of host tissues and invasion of the intestine, but the mechanism was unknown. I recently made the surprising discovery that amoebae kill by biting off and ingesting distinct pieces of living human cells, resulting in intracellular calcium elevation and eventual death. I named this "trogocytosis-like ingestion" (Greek, trogo-: nibble) due to similarity to trogocytosis in immune cells. I hypothesize that pathology in amoebic colitis results from parasites invading the intestine by nibbling the epithelial cells that line the gut. It is likely that the novel killing mechanism requires unique phagocytic machinery and that the components represent new drug targets. Therefore, I propose to uncover the signaling mechanisms underlying trogocytosis-like ingestion. Furthermore, I propose to re-examine the long-standing hypothesis that the E. histolytica pore-forming proteins, known as the "amoebapores," are secreted cytotoxic effectors. Successful completion of this work will create a paradigm shift in the functio of the amoebapores, and will also allow us to identify novel virulence factors, ultimately allowing us to define the basic mechanism of disease.

描述（由申请人提供）：我建议研究阿米巴结肠炎的发病机制，阿米巴结肠炎是一种全球性寄生虫感染，也是儿童发病和死亡的主要来源。溶组织内阿米巴因其破坏宿主组织并侵入肠道而被命名为“溶组织内阿米巴”，但其机制尚不清楚。我最近有了一个令人惊讶的发现，阿米巴变形虫通过咬掉并摄入不同的活人类细胞碎片来杀人，导致细胞内钙含量升高并最终死亡。由于与免疫细胞中的 trogocytosis 相似，我将这种现象命名为“trogocytosis 样摄取”（希腊语，trogo-：nibble）。我推测阿米巴结肠炎的病理是由寄生虫通过蚕食肠道内的上皮细胞侵入肠道而引起的。小说里很有可能杀伤机制需要独特的吞噬机制，并且其成分代表新的药物靶点。因此，我建议揭示类吞噬作用摄入背后的信号传导机制。此外，我建议重新审视长期以来的假设，即溶组织内阿米巴成孔蛋白（称为“变形虫”）是分泌的细胞毒性效应物。这项工作的成功完成将为变形虫的功能带来范式转变，也将使我们能够识别新的毒力因子，最终允许我们来定义疾病的基本机制。