Oxygen and Cell Fate Decisions

doi:10.4137/grsb.s434

. 2008 Feb 10:2:43-51.

doi: 10.4137/grsb.s434.

Oxygen and Cell Fate Decisions

Qun Lin¹, Yuri Kim, Rodolfo M Alarcon, Zhong Yun

Affiliations

PMID: 19606268
PMCID: PMC2733087
DOI: 10.4137/grsb.s434

Oxygen and Cell Fate Decisions

Qun Lin et al. Gene Regul Syst Bio. 2008.

. 2008 Feb 10:2:43-51.

doi: 10.4137/grsb.s434.

Authors

Qun Lin¹, Yuri Kim, Rodolfo M Alarcon, Zhong Yun

Affiliation

¹ Department of Therapeutic Radiology, Yale University School of Medicine, New Haven, CT 06520, U.S.A.

PMID: 19606268
PMCID: PMC2733087
DOI: 10.4137/grsb.s434

Abstract

Molecular oxygen has been known to play a critical role in a wide range of biological processes including glycolysis, mitochondrial respiration, angiogenesis, pulmonary functions, and cardiovascular activities. An emerging theme has developed in recent years that oxygen has significant impact on embryonic development, maintenance of stem cells, and cellular differentiation or cell fate decisions. Among the notable observations, early embryonic development takes place in a hypoxic microenvironment. Hematopoietic stem cells appear to be located in hypoxic regions within the bone marrow. Majority of the current observations have shown that hypoxia seems to prevent cellular differentiation and to maintain pluripotency of stem/progenitor cells. Genetic studies have demonstrated a critical role of hypoxia-inducible factors 1alpha and 2alpha in embryonic development. These intriguing observations demonstrate an important role of molecular oxygen in such fundamental biological processes as stem cell maintenance and regulation of cell fate decisions. Herein, we describe some of the latest advances in the biology of molecular oxygen and provide our perspectives on the potential impact of these interesting findings.

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References

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[1] Allalunis MJ, Chapman JD, Turner AR. Identification of a hypoxic population of bone marrow cells. Int. J. Radiat. Oncol. Biol. Phys. 1983;9:227–32. - PubMed

[2] Allalunis MJ, Chapman JD, Turner AR. Identification of a hypoxic population of bone marrow cells. Int. J. Radiat. Oncol. Biol. Phys. 1983;9:227–32. - PubMed

[3] Amarilio R, Viukov SV, Sharir A, Eshkar-Oren I, Johnson RS, Zelzer E. HIF1α regulation of Sox9 is necessary to maintain differentiation of hypoxic prechondrogenic cells during early skeletogenesis. Development. 2007;134:3917–28. - PubMed

[4] Amarilio R, Viukov SV, Sharir A, Eshkar-Oren I, Johnson RS, Zelzer E. HIF1α regulation of Sox9 is necessary to maintain differentiation of hypoxic prechondrogenic cells during early skeletogenesis. Development. 2007;134:3917–28. - PubMed

[5] Berner RA, Vandenbrooks JM, Ward PD. Evolution. Oxygen and evolution. Science. 2007;316:557–8. - PubMed

[6] Berner RA, Vandenbrooks JM, Ward PD. Evolution. Oxygen and evolution. Science. 2007;316:557–8. - PubMed

[7] Brighton CT, Heppenstall RB. Oxygen tension in zones of the epiphyseal plate, the metaphysis and diaphysis. An in vitro and in vivo study in rats and rabbits. J. Bone Joint Surg. 1971a;53:719–28. - PubMed

[8] Brighton CT, Heppenstall RB. Oxygen tension in zones of the epiphyseal plate, the metaphysis and diaphysis. An in vitro and in vivo study in rats and rabbits. J. Bone Joint Surg. 1971a;53:719–28. - PubMed

[9] Brighton CT, Heppenstall RB. Oxygen tension of the epiphyseal plate distal to an arteriovenous fistula. Clin. Orthop. Rel. Res. 1971b;80:167–73. - PubMed

[10] Brighton CT, Heppenstall RB. Oxygen tension of the epiphyseal plate distal to an arteriovenous fistula. Clin. Orthop. Rel. Res. 1971b;80:167–73. - PubMed

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Oxygen and Cell Fate Decisions

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Oxygen and Cell Fate Decisions

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