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Journal of Translational Medicine

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Open Access 01-12-2019 | Research

Macrophages are necessary for skin regeneration during tissue expansion

Authors: Jianke Ding, Lei Lei, Shiqiang Liu, Yu Zhang, Zhou Yu, Yingjun Su, Xianjie Ma

Published in: Journal of Translational Medicine | Issue 1/2019

Abstract

Background

Tissue expansion is a procedure that promotes skin regeneration by mechanical stretch. During the stress and relaxation cycle, the skin undergoes a repeated microtrauma which triggers an immune response leading to the recruitment of macrophages to repair the damaged tissue. Macrophages have been found to be necessary for tissue repair and wound healing, but their effects on skin regeneration during mechanical stretch remain unclear.

Methods

The dynamic changes of macrophages in the rat skin tissues undergoing expansion were quantitatively determined by immunohistochemistry staining. The area of the expanded skin, skin thickness, dermal collagen density, cell proliferation and tissue vascularization were examined to determine the effects of macrophages on the expanding skin. The phenotypes of macrophages and the growth factors related to skin regeneration were also examined to evaluate the underlying mechanisms for the involvement of macrophages in skin regeneration. As a comparison, the tissue samples of expanding skin in which the macrophages were depleted by topically utilizing clodronate liposomes were also evaluated.

Results

The number of skin macrophages in skin maintained in the high level during the skin expansion compared to non-expanded skin. We found that a switch from an M1- to M2-dominant response during tissue expansion. After the macrophages were depleted, the skin regeneration was inhibited, as evidenced by a smaller expansion area, thinner skin layers and decreased cell proliferation rate, collagen synthesis and, skin vascularization. The secretion of epidermal growth factor (EGF), fibroblast growth factor (FGF), and vascular endothelial growth factor (VEGF) were decreased when macrophages were depleted.

Conclusions

Our findings suggest that macrophages are necessary for skin regeneration during tissue expansion. Modulating inflammation may provide a key therapeutic strategy to promote skin growth under mechanical strain.

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Neumann CG. The expansion of an area of skin by progressive distention of a subcutaneous balloon; use of the method for securing skin for subtotal reconstruction of the ear. Plast Reconstr Surg. 1946;1957(19):124–30.

Radovan C. Breast reconstruction after mastectomy using the temporary expander. Plast Reconstr Surg. 1982;69:195–208.CrossRef

Austad ED, Pasyk KA, McClatchey KD, Cherry GW. Histomorphologic evaluation of guinea pig skin and soft tissue after controlled tissue expansion. Plast Reconstr Surg. 1982;70:704–10.CrossRef

Azadgoli B, Fahradyan A, Wolfswinkel EM, Tsuha M, Magee WR, Hammoudeh JA, Urata MM, Howell LK. External port tissue expansion in the pediatric population: confirming its safety and efficacy. Plast Reconstr Surg. 2018;141:883e–90e.CrossRef

Patel PA, Elhadi HM, Kitzmiller WJ, Billmire DA, Yakuboff KP. Tissue expander complications in the pediatric burn patient: a 10-year follow-up. Ann Plast Surg. 2014;72:150–4.CrossRef

Koh TJ, DiPietro LA. Inflammation and wound healing: the role of the macrophage. Exp Rev Mol Med. 2011;13:e23.CrossRef

De Filippo RE, Atala A. Stretch and growth: the molecular and physiologic influences of tissue expansion. Plast Reconstr Surg. 2002;109:2450–62.CrossRef

Petrie TA, Strand NS, Yang CT, Rabinowitz JS, Moon RT. Macrophages modulate adult zebrafish tail fin regeneration. Development. 2014;141:2581–91.CrossRef

Godwin JW, Pinto AR, Rosenthal NA. Macrophages are required for adult salamander limb regeneration. Proc Natl Acad Sci USA. 2013;110:9415–20.CrossRef

10.

Tang Y, Luan J, Zhang X. Accelerating tissue expansion by application of topical papaverine cream. Plast Reconstr Surg. 2004;114:1166–9.CrossRef

11.

Castellana D, Paus R, Perez-Moreno M. Macrophages contribute to the cyclic activation of adult hair follicle stem cells. PLoS Biol. 2014;12:e1002002.CrossRef

12.

Simkin J, Gawriluk TR, Gensel JC, Seifert AW. Macrophages are necessary for epimorphic regeneration in African spiny mice. Elife. 2017;6:e24623.CrossRef

13.

van Rooijen N, Hendrikx E. Liposomes for specific depletion of macrophages from organs and tissues. Methods Mol Biol. 2010;605:189–203.CrossRef

14.

Yang M, Li Q, Sheng L, Li H, Weng R, Zan T. Bone Marrow—derived mesenchymal stem cells transplantation accelerates tissue expansion by promoting skin regeneration during expansion. Ann Surg. 2011;253:202–9.CrossRef

15.

Razzak MA, Hossain MS, Radzi ZB, Yahya NAB, Czernuszka J, Rahman MT. Cellular and molecular responses to mechanical expansion of tissue. Front Physiol. 2016;7:540.CrossRef

16.

Li C, Zheng Y, Wang X, Xia W, Gao H, Li D, Ma X. Bone marrow-derived stem cells contribute skin regeneration in skin and soft tissue expansion. J Cell Physiol. 2011;226:2834–40.CrossRef

17.

Krzyszczyk P, Schloss R, Palmer A, Berthiaume F. The role of macrophages in acute and chronic wound healing and interventions to promote pro-wound healing phenotypes. Front Physiol. 2018;9:419.CrossRef

18.

Peiseler M, Kubes P. Macrophages play an essential role in trauma-induced sterile inflammation and tissue repair. Eur J Trauma Emerg Surg. 2018;44(3):335–49.CrossRef

19.

Lucas T, Waisman A, Ranjan R, Roes J, Krieg T, Muller W, Roers A, Eming SA. Differential roles of macrophages in diverse phases of skin repair. J Immunol. 2010;184:3964–77.CrossRef

20.

Al-Namnam N, Hariri F, Rahman Z. Distraction osteogenesis in the surgical management of syndromic craniosynostosis: a comprehensive review of published papers. Br J Oral Maxillofac Surg. 2018;56(5):353–66.CrossRef

21.

Ma X, Li Y, Li W, Liu C, Peng P, Song B, Xia W, Yi C, Lu K, Su Y. Reconstruction of large postburn facial-scalp scars by expanded pedicled deltopectoral flap and random scalp flap: technique improvements to enlarge the reconstructive territory. J Craniofac Surg. 2017;28:1526–30.CrossRef

22.

Ma X, Li Y, Li W, Liu C, Liu H, Xue P, Cui J. Reconstruction of facial-cervical scars with pedicled expanded deltopectoral flap. J Craniofac Surg. 2017;28:1554–8.CrossRef

23.

Silver FH, Siperko LM, Seehra GP. Mechanobiology of force transduction in dermal tissue. Skin Res Technol. 2003;9:3–23.CrossRef

24.

Wang X, Chen H, Tian R, Zhang Y, Drutskaya MS, Wang C, Ge J, Fan Z, Kong D, Wang X, Cai T, Zhou Y, Wang J, Wang J, Wang S, Qin Z, Jia H, Wu Y, Liu J, Nedospasov SA, Tredget EE, Lin M, Liu J, Jiang Y, Wu Y. Macrophages induce AKT/β-catenin-dependent Lgr5+ stem cell activation and hair follicle regeneration through TNF. Nat Commun. 2017;8:14091.CrossRef

25.

Aurora AB, Porrello ER, Tan W, Mahmoud AI, Hill JA, Bassel-Duby R, Sadek HA, Olson EN. Macrophages are required for neonatal heart regeneration. J Clin Invest. 2014;124:1382–92.CrossRef

26.

Guo L, Akahori H, Harari E, Smith SL, Polavarapu R, Karmali V, Otsuka F, Gannon RL, Braumann RE, Dickinson MH, Gupta A, Jenkins AL, Lipinski MJ, Kim J, Chhour P, de Vries PS, Jinnouchi H, Kutys R, Mori H, Kutyna MD, Torii S, Sakamoto A, Choi CU, Cheng Q, Grove ML, Sawan MA, Zhang Y, Cao Y, Kolodgie FD, Cormode DP, Arking DE, Boerwinkle E, Morrison AC, Erdmann J, Sotoodehnia N, Virmani R, Finn AV. CD163+ macrophages promote angiogenesis and vascular permeability accompanied by inflammation in atherosclerosis. J Clin Invest. 2018;128:1106–24.CrossRef

27.

Adisa AO, Udeabor SE, Orlowska A, Sader RA, Ghanaati S. Evaluation of tumour associated macrophages and angiogenesis in ameloblastoma. J Clin Diagn Res. 2017;11:C33–5.

28.

Snyder RJ, Lantis J, Kirsner RS, Shah V, Molyneaux M, Carter MJ. Macrophages: a review of their role in wound healing and their therapeutic use. Wound Repair Regen. 2016;24:613–29.CrossRef

29.

Sica A, Erreni M, Allavena P, Porta C. Macrophage polarization in pathology. Cell Mol Life Sci. 2015;72:4111–26.CrossRef

30.

Jetten N, Verbruggen S, Gijbels MJ, Post MJ, De Winther MP, Donners MM. Anti-inflammatory M2, but not pro-inflammatory M1 macrophages promote angiogenesis in vivo. Angiogenesis. 2014;17:109–18.CrossRef

31.

Zhu L, Fu X, Chen X, Han X, Dong P. M2 macrophages induce EMT through the TGF-beta/Smad2 signaling pathway. Cell Biol Int. 2017;41:960–8.CrossRef

32.

Martin P, Leibovich SJ. Inflammatory cells during wound repair: the good, the bad and the ugly. Trends Cell Biol. 2005;15:599–607.CrossRef

33.

Love NR, Chen Y, Ishibashi S, Kritsiligkou P, Lea R, Koh Y, Gallop JL, Dorey K, Amaya E. Amputation-induced reactive oxygen species are required for successful Xenopus tadpole tail regeneration. Nat Cell Biol. 2013;15:222–8.CrossRef

34.

Kyritsis N, Kizil C, Zocher S, Kroehne V, Kaslin J, Freudenreich D, Iltzsche A, Brand M. Acute inflammation initiates the regenerative response in the adult zebrafish brain. Science. 2012;338:1353–6.CrossRef

Title: Macrophages are necessary for skin regeneration during tissue expansion
Authors: Jianke Ding
Lei Lei
Shiqiang Liu
Yu Zhang
Zhou Yu
Yingjun Su
Xianjie Ma
Publication date: 01-12-2019
Publisher: BioMed Central
Published in: Journal of Translational Medicine / Issue 1/2019
Electronic ISSN: 1479-5876
DOI: https://doi.org/10.1186/s12967-019-1780-z

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Abstract

Background

Methods

Results

Conclusions

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