Local regulation of homeostasis favors chromosomal instability

Franziska Michor; Yoh Iwasa; Natalia L. Komarova; Martin A. Nowak

doi:10.1016/S0960-9822(03)00172-6

Local regulation of homeostasis favors chromosomal instability

Franziska Michor, Yoh Iwasa, Natalia L. Komarova, Martin A. Nowak

dynamic biology

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

31 Citations (Scopus)

Abstract

Tissues of long-lived multicellular organisms have to maintain a constant number of functioning cells for many years. This process is called homeostasis. Homeostasis breaks down when cells emerge with mutations in tumor suppressor genes or oncogenes. Such mutated cells can have increased net rates of proliferation, which is increased somatic fitness. We show that the best protection against such mutations is achieved when homeostasis is regulated locally via small compartments. Small compartments, on the other hand, allow the accumulation of cells with reduced somatic fitness. Cells with mutations conferring genetic instability normally have a reduced somatic fitness because they have an increased probability of producing deleterious mutations or triggering apoptosis. Thus, small compartments protect against mutations in tumor suppressor genes or oncogenes but promote the emergence of genetic instability.

Original language	English
Pages (from-to)	581-584
Number of pages	4
Journal	Current Biology
Volume	13
Issue number	7
DOIs	https://doi.org/10.1016/S0960-9822(03)00172-6
Publication status	Published - Apr 1 2003

All Science Journal Classification (ASJC) codes

Biochemistry, Genetics and Molecular Biology(all)
Agricultural and Biological Sciences(all)

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10.1016/S0960-9822(03)00172-6

Cite this

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title = "Local regulation of homeostasis favors chromosomal instability",

abstract = "Tissues of long-lived multicellular organisms have to maintain a constant number of functioning cells for many years. This process is called homeostasis. Homeostasis breaks down when cells emerge with mutations in tumor suppressor genes or oncogenes. Such mutated cells can have increased net rates of proliferation, which is increased somatic fitness. We show that the best protection against such mutations is achieved when homeostasis is regulated locally via small compartments. Small compartments, on the other hand, allow the accumulation of cells with reduced somatic fitness. Cells with mutations conferring genetic instability normally have a reduced somatic fitness because they have an increased probability of producing deleterious mutations or triggering apoptosis. Thus, small compartments protect against mutations in tumor suppressor genes or oncogenes but promote the emergence of genetic instability.",

author = "Franziska Michor and Yoh Iwasa and Komarova, {Natalia L.} and Nowak, {Martin A.}",

note = "Funding Information: Support from the Leon Levy and Shelby White Initiatives Fund, the Ambrose Monell Foundation, the David and Lucile Packard Foundation, and Jeffrey Epstein is gratefully acknowledged. ",

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T1 - Local regulation of homeostasis favors chromosomal instability

AU - Michor, Franziska

AU - Iwasa, Yoh

AU - Komarova, Natalia L.

AU - Nowak, Martin A.

N1 - Funding Information: Support from the Leon Levy and Shelby White Initiatives Fund, the Ambrose Monell Foundation, the David and Lucile Packard Foundation, and Jeffrey Epstein is gratefully acknowledged.

PY - 2003/4/1

Y1 - 2003/4/1

N2 - Tissues of long-lived multicellular organisms have to maintain a constant number of functioning cells for many years. This process is called homeostasis. Homeostasis breaks down when cells emerge with mutations in tumor suppressor genes or oncogenes. Such mutated cells can have increased net rates of proliferation, which is increased somatic fitness. We show that the best protection against such mutations is achieved when homeostasis is regulated locally via small compartments. Small compartments, on the other hand, allow the accumulation of cells with reduced somatic fitness. Cells with mutations conferring genetic instability normally have a reduced somatic fitness because they have an increased probability of producing deleterious mutations or triggering apoptosis. Thus, small compartments protect against mutations in tumor suppressor genes or oncogenes but promote the emergence of genetic instability.

AB - Tissues of long-lived multicellular organisms have to maintain a constant number of functioning cells for many years. This process is called homeostasis. Homeostasis breaks down when cells emerge with mutations in tumor suppressor genes or oncogenes. Such mutated cells can have increased net rates of proliferation, which is increased somatic fitness. We show that the best protection against such mutations is achieved when homeostasis is regulated locally via small compartments. Small compartments, on the other hand, allow the accumulation of cells with reduced somatic fitness. Cells with mutations conferring genetic instability normally have a reduced somatic fitness because they have an increased probability of producing deleterious mutations or triggering apoptosis. Thus, small compartments protect against mutations in tumor suppressor genes or oncogenes but promote the emergence of genetic instability.

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Local regulation of homeostasis favors chromosomal instability

Abstract

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