Conservatism of the Insulin Signaling System in Evolution of Invertebrate and Vertebrate Animals

The insulin system including hormone insulin and signaling mechanisms realizing a wide spectrum of its regulatory effect is one of the major systems in the animals and human organism. At present the history of origin of this regulatory system in the course of evolution starts to be formed. There are...

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Bibliographic Details
Published in:Journal of evolutionary biochemistry and physiology 2002-09, Vol.38 (5), p.547
Main Authors: Pertseva, M N, Shpakov, A O
Format: Article
Language:English
Subjects:
Conservatism
Kinases
Peptides
Proteins
Vertebrates
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Summary:The insulin system including hormone insulin and signaling mechanisms realizing a wide spectrum of its regulatory effect is one of the major systems in the animals and human organism. At present the history of origin of this regulatory system in the course of evolution starts to be formed. There are grounds to believe that it appeared in unicellular eukaryotes, developed in multicellular ones, and achieved significant perfection in higher vertebrates. This paper analyzes the structural-functional organization of insulin-like peptides, their receptors, and the corresponding signaling mechanisms in four types of invertebrates (sponges, nematodes, molluscs, arthropods) in comparison with those in higher vertebrates. There is revealed evolutionary conservatism in the common structural-functional organization of insulin-like peptides of invertebrates and insulin of vertebrate animals; receptors of insulin-like peptides of invertebrates and receptors of insulin and insulin-like growth factor 1 of vertebrates that have tyrosine kinase activity; the insulin-like signaling systems including signaling blocks, similar by their primary structure in invertebrate and vertebrate animals (IRS-proteins, G-proteins, adenylyl cyclase, protein kinases A and C, etc.). The point of view is put forward that the conservatism of the functional blocks of the insulin system does not mean the absence of evolutionary changes of this system as a whole. Examples of such evolutionary changes leading to complication of the insulin system organization at supramolecular and cellular levels and to an increase of efficiency of its functioning are presented.[PUBLICATION ABSTRACT]
ISSN:0022-0930
1608-3202
DOI:10.1023/A:1022008932029