Defects in cAMP-pathway may initiate carcinogenesis in dividing nerve cells: A review

The mechanisms of carcinogenesis in nervous tissues are not well understood. It is now established that adenosine 3,',5'-cyclic monophosphate (cAMP)-pathway plays a crucial role in initiating differentiation in transformed and embryonic cells of neuronal and glial origin. Therefore, we pro...

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Veröffentlicht in:	Apoptosis (London) 2003-12, Vol.8 (6), p.579-586
Hauptverfasser:	PRASAD, K. N, COLE, W. C, YAN, X.-D, NAHREINI, P, KUMAR, B, HANSON, A, PRASAD, J. E
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Sprache:	eng
Schlagworte:	Adenylyl Cyclases - metabolism Ageing, cell death Animals Biological and medical sciences Carcinogenesis Cell Division - physiology Cell physiology Cell transformation and carcinogenesis. Action of oncogenes and antioncogenes Cyclic AMP - metabolism Defects Fundamental and applied biological sciences. Psychology Genes Genetic abnormalities Mice Molecular and cellular biology Nervous System Neoplasms - etiology Nervous System Neoplasms - metabolism Nervous tissues Neuroblastoma - metabolism Neurons - metabolism
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creator	PRASAD, K. N COLE, W. C YAN, X.-D NAHREINI, P KUMAR, B HANSON, A PRASAD, J. E
description	The mechanisms of carcinogenesis in nervous tissues are not well understood. It is now established that adenosine 3,',5'-cyclic monophosphate (cAMP)-pathway plays a crucial role in initiating differentiation in transformed and embryonic cells of neuronal and glial origin. Therefore, we propose that defects in the cAMP-pathway may initiate the first phase of carcinogenesis (immortalization). Subsequent genetic abnormalities in oncogenes, anti-oncogenes or other cellular genes individually or in combination may lead to transformation (cancer phenotype). This hypothesis is derived from the fact that an elevation of the cAMP level in murine NB cells induces terminal differentiation in many of these cells in spite of the fact that they are highly aneuploid. Additional changes in cAMP-regulated genes responsible for initiating differentiation may make these cells resistant to cAMP or may make the cAMP-effect on differentiation reversible. Indeed, cAMP-resistant cells exist in NB cell populations, and the cAMP-effect on differentiation is reversible in glioma cells. Identification of genes that initiate, promote and maintain terminal differentiation and those which prevent differentiation following elevation of cAMP in NB cells may increase our understanding of the mechanisms of carcinogenesis. This review illustrates the following: (a) historical background leading to the discovery of cAMP as an inducer of differentiation in nerve cells; (b) identification of potential sites in cAMP-pathway that may play a crucial role in initiating the first phase of carcinogenesis (immortalization) and potential gene targets in immortalized cells whose alterations may cause neoplastic transformation of nerve cells. It is interesting to note that the cAMP pathway remains responsive to an elevated cAMP level in inducing differentiation in NB cells in spite of chromosomal anomalies and genetic changes associated with the maintenance of a cancer phenotype.
doi_str_mv	10.1023/a:1026179324295
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Additional changes in cAMP-regulated genes responsible for initiating differentiation may make these cells resistant to cAMP or may make the cAMP-effect on differentiation reversible. Indeed, cAMP-resistant cells exist in NB cell populations, and the cAMP-effect on differentiation is reversible in glioma cells. Identification of genes that initiate, promote and maintain terminal differentiation and those which prevent differentiation following elevation of cAMP in NB cells may increase our understanding of the mechanisms of carcinogenesis. This review illustrates the following: (a) historical background leading to the discovery of cAMP as an inducer of differentiation in nerve cells; (b) identification of potential sites in cAMP-pathway that may play a crucial role in initiating the first phase of carcinogenesis (immortalization) and potential gene targets in immortalized cells whose alterations may cause neoplastic transformation of nerve cells. 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Subsequent genetic abnormalities in oncogenes, anti-oncogenes or other cellular genes individually or in combination may lead to transformation (cancer phenotype). This hypothesis is derived from the fact that an elevation of the cAMP level in murine NB cells induces terminal differentiation in many of these cells in spite of the fact that they are highly aneuploid. Additional changes in cAMP-regulated genes responsible for initiating differentiation may make these cells resistant to cAMP or may make the cAMP-effect on differentiation reversible. Indeed, cAMP-resistant cells exist in NB cell populations, and the cAMP-effect on differentiation is reversible in glioma cells. Identification of genes that initiate, promote and maintain terminal differentiation and those which prevent differentiation following elevation of cAMP in NB cells may increase our understanding of the mechanisms of carcinogenesis. 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subjects	Adenylyl Cyclases - metabolism Ageing, cell death Animals Biological and medical sciences Carcinogenesis Cell Division - physiology Cell physiology Cell transformation and carcinogenesis. Action of oncogenes and antioncogenes Cyclic AMP - metabolism Defects Fundamental and applied biological sciences. Psychology Genes Genetic abnormalities Mice Molecular and cellular biology Nervous System Neoplasms - etiology Nervous System Neoplasms - metabolism Nervous tissues Neuroblastoma - metabolism Neurons - metabolism
title	Defects in cAMP-pathway may initiate carcinogenesis in dividing nerve cells: A review
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