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A EUKARYOTIC TISSUE DENSITY SENSOR

真核组织密度传感器

基本信息

批准号：
3301281
负责人：
Richard H Gomer
金额：
$ 12.74万
依托单位：
RICE UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
1989
资助国家：
美国
起止时间：
1989-07-01 至 1993-06-30
项目状态：
已结题

项目摘要

This proposal concerns eucaryotic mass effectors: extracellular molecules that allow individual cells within a tissue to sense the mass of the entire tissue. Such molecules would be centrally involved in the regulation of growth during development wound healing and tissue regeneration. Disruption of the masssensing mechanism could lead to tumor formation. As a model system, we will use the conditioned medium factor (CMF) secreted by developing Dictyostelium discoideum cells. In submerged monolayer culture, Dictyostelium cells differentiate at high cell densities but not at low densities; cells at low densities will however differentiate in medium in which a high density of cells was previously starved (a conditioned medium). An explanation this phenomenon is that during development, Dictyostelium cells need to be able to sense whether they are far from an aggregation center and thus need to continue expressing aggregation specific genes, or whether they are at or near an aggregation center and thus need to be continue expressing aggregation specific genes, or whether they are at or near an aggregation center and thus can begin expressing differentiation- specific genes. Since developing Dictyostelium cells do not divide, CMF is a mass effector rather than a mitogen or growth factor. In higher eucaryotes, one could envision similar mechanisms with different effectors and receptors so that liver cell could sense the number of other liver cells, pancreas the number of other pancreas cells, etc. Fractionation of the conditioned medium shows that the activity that allows low density cells to differentiate copurifies with a 70 kD protein as well as with a ~5 kD molecule; interestingly, the two molecules both have the same activity and do not need to be combined to allow differentiation. The 5 kD CMF's and whether they are related and/or if one is derived from the other. The gene encoding the 70 kD CMF will be isolated and sequenced for comparison with other known proteins. If the 5 kD CMF is a polypeptide, its gene will similarly be characterized. The physiological role of CMF will be examined by characterizing the temporal regulation of its secretion, which cell types secrete it, possible factors that might regulate its secretion and the extent of its interaction with the Dictyostelium cAMP mediated chemotaxis mechanism. The long term goal is to understand on a molecular basis the entire transduction mechanism whereby cells sense whether they are in the presence of a large mass of other cells.

这项提议涉及到真核质量效应器：细胞外允许组织中的单个细胞感觉到整个组织的质量。这样的分子将集中在在发育创伤中参与生长的调节愈合和组织再生。质量感觉的中断机制可能导致肿瘤的形成。作为一个模范系统，我们将使用由开发人员分泌的条件培养因子(CMF) 盘基网眼菌细胞。在水下单层培养中，网柄苔藓细胞在高细胞密度下分化，但不在低密度下；然而，低密度下的细胞将分化在先前高密度细胞饥饿的培养液中 (条件培养液)。对这一现象的解释是在发育过程中，网柄基细胞需要能够感知他们是否远离聚合中心，因此需要继续表达聚集特异性基因，或者无论它们是位于聚合中心或其附近，因此需要继续表达聚集特异性基因，或者它们是在还是在聚集中心附近，因此可以开始表达分化特异性基因。自发育至今，网柄苔藓细胞不分裂，CMF是质量效应器而不是有丝分裂原或者是生长因子。在高等真核生物中，人们可以想象类似的情况作用机制不同的效应物和受体使肝脏细胞可以感觉到其他肝细胞的数量，胰腺其他胰腺细胞的数量等。条件培养液显示，允许低密度的活性细胞分化为70kD的蛋白质以及有一个~5kD的分子；有趣的是，这两个分子都有相同的活动，并且不需要组合以允许差异化。5个KD CMF及其是否相关和/或如果一个是从另一个派生的。编码70的基因 KD CMF将被分离并测序，以便与其他已知的蛋白质。如果5kD的CMF是一种多肽，它的基因将同样，也要表现出自己的特点。CMF的生理作用将是通过表征ITS的时间调节来检验分泌，哪些细胞类型分泌它，可能的因素可能调节其分泌及其与细胞的相互作用程度网柄苔藓cAMP介导的趋化机制。从长远来看目标是在分子的基础上理解整个转导细胞感知它们是否存在于一大堆其他细胞。