TUMOR NECROSIS FACTOR IN REGENERATION OF DEEP SKIN WOUNDS IN MICE

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Abstract

Mechanisms of skin wound healing have been extensively studied in order to propose novel approaches for treatment of chronic and poorly healing wounds, including those associated with autoimmune pathologies, as well as for fibrosis prevention. Recent studies indicate the key role of proinfl ammatory cytokines, such as TNF, IL-6 and IL-1, in regulating skin regeneration. In our work we investigated the impact of tumor necrosis factor (TNF) on healing of deep skin wounds in mice by employing reverse genetics approach. We found, that conditional knock-out of TNF gene specifically in macrophages results in delayed wound healing. However inactivation of TNF in all cell types does not aff ect wound regeneration dynamics. Moreover, genetic knock-out of TNF receptor I (TNFRI) results in accelerated wound healing. Thus, the results of our study suggest that TNF from diff erent cell types plays a dual role in skin regeneration probably refl ecting that both cellular source of TNF as well as receptor type on target cells are important.

About the authors

M. A. Nosenko

Engelhardt Institute of Molecular Biology of Russian Academy of Sciences;
Lomonosov Moscow State University

Author for correspondence.
Email: maxim-nosenko@yandex.ru

junior stuff scientist;

PhD student at immunology department biological faculty,

Moscow

Russian Federation

S. G. Ambaryan

Lomonosov Moscow State University

Email: fake@neicon.ru

master student;

immunology department biological faculty,

Moscow

Russian Federation

S. A. Nedospasov

Engelhardt Institute of Molecular Biology of Russian Academy of Sciences;
Lomonosov Moscow State University

Email: sergei.nedospasov@gmail.com

Academician of RAS, PhD, head of the lab,

Moscow

Russian Federation

M. S. Drutskaya

Engelhardt Institute of Molecular Biology of Russian Academy of Sciences

Email: fake@neicon.ru

PhD, leading stuff scientist,

Moscow

Russian Federation

References

  1. Landén N. X., Li D., Ståhle M. (2016) Transition from inflammation to proliferation: a critical step during wound healing. Cell Mol Life Sci. 73,3861–3885.
  2. Gallucci R. M., Simeonova P. P., Matheson J. M., Kommineni C., Guriel J. L., Sugawara T., Luster M. I. (2000) Impaired cutaneous wound healing in interleukin-6- deficient and immunosuppressed mice. FASEB J. 14,2525–2531.
  3. Shinozaki M., Okada Y., Kitano A., Ikeda K., Saika S., Shinozaki M. (2009) Impaired cutaneous wound healing with excess granulation tissue formation in TNFαnull mice. Arch Dermatol Res. 301,531–537.
  4. Ansell D. M., Holden K. A., Hardman M. J. (2012) Animal models of wound repair: Are they cutting it? Exp Dermatol. 21,581–585.
  5. Wang X., Ge J., Tredget E. E., Wu Y. (2013) The mouse excisional wound splinting model, including applications for stem cell transplantation. Nat Protoc. 8,302– 309.

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Copyright (c) 2019 Nosenko M.A., Ambaryan S.G., Nedospasov S.A., Drutskaya M.S.

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This work is licensed under a Creative Commons Attribution 4.0 International License.
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