Electromagnetic Modulation of Biological Processes: ATPase Function and Dna Production by Raji Cancer Cells in Vitro

Giuseppe Colacicco; Arthur A. Pilla

doi:10.1515/znc-1983-5-624

Electromagnetic Modulation of Biological Processes: ATPase Function and Dna Production by Raji Cancer Cells in Vitro

Giuseppe Colacicco, Arthur A. Pilla

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Addition of either ATP or ouabain to the culture medium markedly depressed thymidine incorporation into DNA in Raji cells. The electromagnetic field, pulsating at very low frequency, did not affect DNA synthesis in normal culture media nor did it alter its ouabain-inhibition, but it partially reversed the ATP-inhibition. In spite of the presence of ATP, ouabain prevented stimulation of ATPase and DNA synthesis by the field. Although no mechanism is known for the action of either ATP or the field, the results may be interpreted in light of existing speculations.In the absence of the field, external ATP may go into an ATP pool that either blocks ATPase or feeds adenyl cyclase, which hinders DNA synthesis.In contrast, the electromagnetic field may either turn off adenyl cyclase or sim ply stimulate the ATP-depressed ATPase.

Original language	English
Pages (from-to)	468-470
Number of pages	3
Journal	Zeitschrift fur Naturforschung - Section C Journal of Biosciences
Volume	38
Issue number	5-6
DOIs	https://doi.org/10.1515/znc-1983-5-624
State	Published - 1 Jun 1983
Externally published	Yes

Keywords

Cell Proliferation
DNA Synthesis
Membrane Coupling
Plasma Membrane ATPases
Pulsating Electromagnetic Fields

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10.1515/znc-1983-5-624

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title = "Electromagnetic Modulation of Biological Processes: ATPase Function and Dna Production by Raji Cancer Cells in Vitro",

abstract = "Addition of either ATP or ouabain to the culture medium markedly depressed thymidine incorporation into DNA in Raji cells. The electromagnetic field, pulsating at very low frequency, did not affect DNA synthesis in normal culture media nor did it alter its ouabain-inhibition, but it partially reversed the ATP-inhibition. In spite of the presence of ATP, ouabain prevented stimulation of ATPase and DNA synthesis by the field. Although no mechanism is known for the action of either ATP or the field, the results may be interpreted in light of existing speculations.In the absence of the field, external ATP may go into an ATP pool that either blocks ATPase or feeds adenyl cyclase, which hinders DNA synthesis.In contrast, the electromagnetic field may either turn off adenyl cyclase or sim ply stimulate the ATP-depressed ATPase.",

keywords = "Cell Proliferation, DNA Synthesis, Membrane Coupling, Plasma Membrane ATPases, Pulsating Electromagnetic Fields",

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T1 - Electromagnetic Modulation of Biological Processes

T2 - ATPase Function and Dna Production by Raji Cancer Cells in Vitro

AU - Colacicco, Giuseppe

AU - Pilla, Arthur A.

PY - 1983/6/1

Y1 - 1983/6/1

N2 - Addition of either ATP or ouabain to the culture medium markedly depressed thymidine incorporation into DNA in Raji cells. The electromagnetic field, pulsating at very low frequency, did not affect DNA synthesis in normal culture media nor did it alter its ouabain-inhibition, but it partially reversed the ATP-inhibition. In spite of the presence of ATP, ouabain prevented stimulation of ATPase and DNA synthesis by the field. Although no mechanism is known for the action of either ATP or the field, the results may be interpreted in light of existing speculations.In the absence of the field, external ATP may go into an ATP pool that either blocks ATPase or feeds adenyl cyclase, which hinders DNA synthesis.In contrast, the electromagnetic field may either turn off adenyl cyclase or sim ply stimulate the ATP-depressed ATPase.

AB - Addition of either ATP or ouabain to the culture medium markedly depressed thymidine incorporation into DNA in Raji cells. The electromagnetic field, pulsating at very low frequency, did not affect DNA synthesis in normal culture media nor did it alter its ouabain-inhibition, but it partially reversed the ATP-inhibition. In spite of the presence of ATP, ouabain prevented stimulation of ATPase and DNA synthesis by the field. Although no mechanism is known for the action of either ATP or the field, the results may be interpreted in light of existing speculations.In the absence of the field, external ATP may go into an ATP pool that either blocks ATPase or feeds adenyl cyclase, which hinders DNA synthesis.In contrast, the electromagnetic field may either turn off adenyl cyclase or sim ply stimulate the ATP-depressed ATPase.

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KW - Membrane Coupling

KW - Plasma Membrane ATPases

KW - Pulsating Electromagnetic Fields

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Electromagnetic Modulation of Biological Processes: ATPase Function and Dna Production by Raji Cancer Cells in Vitro

Abstract

Keywords

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