Caretaker gene

Caretaker genes encode products that stabilize the genome. Fundamentally, mutations in caretaker genes lead to genomic instability. Tumor cells arise from two distinct classes of genomic instability: mutational instability arising from changes in the nucleotide sequence of DNA and chromosomal instability arising from improper rearrangement of chromosomes.[1]

Changes in the genome that allow uncontrolled cell proliferation or cell immortality are responsible for cancer. It is believed that the major changes in the genome that lead to cancer arise from mutations in tumor suppressor genes.[2] In 1997, Kinzler and Bert Vogelstein grouped these cancer susceptibility genes into two classes: "caretakers" and "gatekeepers".[3] In 2004, a third classification of tumor suppressor genes was proposed by Franziska Michor, Yoh Iwasa, and Martin Nowak; "landscaper" genes. In contrast to caretaker genes, gatekeeper genes encode gene products that act to prevent growth of potential cancer cells and prevent accumulation of mutations that directly lead to increased cellular proliferation.[4][5]

The third classification of genes, the landscapers, encode products that, when mutated, contribute to the neoplastic growth of cells by fostering a stromal environment conducive to unregulated cell proliferation.[6]

  1. ^ Van Gent, D. C.; Hoeijmakers, J. H.; Kanaar, R (2001). "Chromosomal stability and the DNA double-stranded break connection". Nature Reviews Genetics. 2 (3): 196–206. doi:10.1038/35056049. PMID 11256071. S2CID 5485937.
  2. ^ Levitt, N. C.; Hickson, I. D. (2002). "Caretaker tumour suppressor genes that defend genome integrity". Trends in Molecular Medicine. 8 (4): 179–86. doi:10.1016/s1471-4914(02)02298-0. PMID 11927276.
  3. ^ Pearson, P. L.; Van Der Luijt, R. B. (1998). "The genetic analysis of cancer". Journal of Internal Medicine. 243 (6): 413–7. doi:10.1046/j.1365-2796.1998.00343.x. PMID 9681837.
  4. ^ Frank, S. A. (2003). "Somatic mutation: Early cancer steps depend on tissue architecture". Current Biology. 13 (7): R261–3. doi:10.1016/s0960-9822(03)00195-7. PMID 12676101.
  5. ^ Campisi, J (2005). "Aging, tumor suppression and cancer: High wire-act!". Mechanisms of Ageing and Development. 126 (1): 51–8. doi:10.1016/j.mad.2004.09.024. PMID 15610762. S2CID 10987824.
  6. ^ Michor, F; Iwasa, Y; Nowak, M. A. (2004). "Dynamics of cancer progression". Nature Reviews Cancer. 4 (3): 197–205. doi:10.1038/nrc1295. PMID 14993901. S2CID 10417120.