Fibroblast inflammatory priming determines regenerative versus fibrotic skin repair in reindeer

Sarthak Sinha; Holly D. Sparks; Elodie Labit; Hayley N. Robbins; Kevin Gowing; Arzina Jaffer; Eren Kutluberk; Rohit Arora; Micha Sam Brickman Raredon; Leslie Cao; Scott Swanson; P. Jiang; Olivia Hee; Hannah Pope; Matt Workentine; Kiran Todkar; Nilesh Sharma; Shyla Bharadia; Keerthana Chockalingam; Luiz G.N. de Almeida; Mike Adam; Laura Niklason; S. Steven Potter; Ashley W. Seifert; Antoine Dufour; Vincent Gabriel; Nicole L. Rosin; Ron Stewart; Greg Muench; Robert McCorkell; John Matyas; Jeff Biernaskie

doi:10.1016/j.cell.2022.11.004

Fibroblast inflammatory priming determines regenerative versus fibrotic skin repair in reindeer

Sarthak Sinha
, Holly D. Sparks
, Elodie Labit
, Hayley N. Robbins
, Kevin Gowing
, Arzina Jaffer
, Eren Kutluberk
, Rohit Arora
, Micha Sam Brickman Raredon
, Leslie Cao
, Scott Swanson
, P. Jiang
, Olivia Hee
, Hannah Pope
, Matt Workentine
, Kiran Todkar
, Nilesh Sharma
, Shyla Bharadia
, Keerthana Chockalingam
, Luiz G.N. de Almeida

Mike Adam, Laura Niklason, S. Steven Potter, Ashley W. Seifert, Antoine Dufour, Vincent Gabriel, Nicole L. Rosin, Ron Stewart, Greg Muench, Robert McCorkell, John Matyas, Jeff Biernaskie

Biological, Geological, and Environmental Sciences

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

127 Scopus citations

Abstract

Adult mammalian skin wounds heal by forming fibrotic scars. We report that full-thickness injuries of reindeer antler skin (velvet) regenerate, whereas back skin forms fibrotic scar. Single-cell multi-omics reveal that uninjured velvet fibroblasts resemble human fetal fibroblasts, whereas back skin fibroblasts express inflammatory mediators mimicking pro-fibrotic adult human and rodent fibroblasts. Consequently, injury elicits site-specific immune responses: back skin fibroblasts amplify myeloid infiltration and maturation during repair, whereas velvet fibroblasts adopt an immunosuppressive phenotype that restricts leukocyte recruitment and hastens immune resolution. Ectopic transplantation of velvet to scar-forming back skin is initially regenerative, but progressively transitions to a fibrotic phenotype akin to the scarless fetal-to-scar-forming transition reported in humans. Skin regeneration is diminished by intensifying, or enhanced by neutralizing, these pathologic fibroblast-immune interactions. Reindeer represent a powerful comparative model for interrogating divergent wound healing outcomes, and our results nominate decoupling of fibroblast-immune interactions as a promising approach to mitigate scar.

Original language	English
Pages (from-to)	4717-4736.e25
Journal	Cell
Volume	185
Issue number	25
DOIs	https://doi.org/10.1016/j.cell.2022.11.004
State	Published - Dec 8 2022

Keywords

fetal human fibroblast
fibroblast
immune modulation
inflammation
inflammatory priming
myeloid cell maturation
reindeer
scar
skin regeneration
stromal-immune crosstalk
wound healing

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10.1016/j.cell.2022.11.004

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Sinha, S., Sparks, H. D., Labit, E., Robbins, H. N., Gowing, K., Jaffer, A., Kutluberk, E., Arora, R., Raredon, M. S. B., Cao, L., Swanson, S., Jiang, P., Hee, O., Pope, H., Workentine, M., Todkar, K., Sharma, N., Bharadia, S., Chockalingam, K., ... Biernaskie, J. (2022). Fibroblast inflammatory priming determines regenerative versus fibrotic skin repair in reindeer. Cell, 185(25), 4717-4736.e25. https://doi.org/10.1016/j.cell.2022.11.004

@article{39a7f16f91414f2094724d795cedaa75,

title = "Fibroblast inflammatory priming determines regenerative versus fibrotic skin repair in reindeer",

abstract = "Adult mammalian skin wounds heal by forming fibrotic scars. We report that full-thickness injuries of reindeer antler skin (velvet) regenerate, whereas back skin forms fibrotic scar. Single-cell multi-omics reveal that uninjured velvet fibroblasts resemble human fetal fibroblasts, whereas back skin fibroblasts express inflammatory mediators mimicking pro-fibrotic adult human and rodent fibroblasts. Consequently, injury elicits site-specific immune responses: back skin fibroblasts amplify myeloid infiltration and maturation during repair, whereas velvet fibroblasts adopt an immunosuppressive phenotype that restricts leukocyte recruitment and hastens immune resolution. Ectopic transplantation of velvet to scar-forming back skin is initially regenerative, but progressively transitions to a fibrotic phenotype akin to the scarless fetal-to-scar-forming transition reported in humans. Skin regeneration is diminished by intensifying, or enhanced by neutralizing, these pathologic fibroblast-immune interactions. Reindeer represent a powerful comparative model for interrogating divergent wound healing outcomes, and our results nominate decoupling of fibroblast-immune interactions as a promising approach to mitigate scar.",

keywords = "fetal human fibroblast, fibroblast, immune modulation, inflammation, inflammatory priming, myeloid cell maturation, reindeer, scar, skin regeneration, stromal-immune crosstalk, wound healing",

author = "Sarthak Sinha and Sparks, \{Holly D.\} and Elodie Labit and Robbins, \{Hayley N.\} and Kevin Gowing and Arzina Jaffer and Eren Kutluberk and Rohit Arora and Raredon, \{Micha Sam Brickman\} and Leslie Cao and Scott Swanson and P. Jiang and Olivia Hee and Hannah Pope and Matt Workentine and Kiran Todkar and Nilesh Sharma and Shyla Bharadia and Keerthana Chockalingam and \{de Almeida\}, \{Luiz G.N.\} and Mike Adam and Laura Niklason and Potter, \{S. Steven\} and Seifert, \{Ashley W.\} and Antoine Dufour and Vincent Gabriel and Rosin, \{Nicole L.\} and Ron Stewart and Greg Muench and Robert McCorkell and John Matyas and Jeff Biernaskie",

year = "2022",

month = dec,

day = "8",

doi = "10.1016/j.cell.2022.11.004",

language = "English",

volume = "185",

pages = "4717--4736.e25",

journal = "Cell",

issn = "0092-8674",

publisher = "Elsevier B.V.",

number = "25",

}

Sinha, S, Sparks, HD, Labit, E, Robbins, HN, Gowing, K, Jaffer, A, Kutluberk, E, Arora, R, Raredon, MSB, Cao, L, Swanson, S, Jiang, P, Hee, O, Pope, H, Workentine, M, Todkar, K, Sharma, N, Bharadia, S, Chockalingam, K, de Almeida, LGN, Adam, M, Niklason, L, Potter, SS, Seifert, AW, Dufour, A, Gabriel, V, Rosin, NL, Stewart, R, Muench, G, McCorkell, R, Matyas, J & Biernaskie, J 2022, 'Fibroblast inflammatory priming determines regenerative versus fibrotic skin repair in reindeer', Cell, vol. 185, no. 25, pp. 4717-4736.e25. https://doi.org/10.1016/j.cell.2022.11.004

TY - JOUR

T1 - Fibroblast inflammatory priming determines regenerative versus fibrotic skin repair in reindeer

AU - Sinha, Sarthak

AU - Sparks, Holly D.

AU - Labit, Elodie

AU - Robbins, Hayley N.

AU - Gowing, Kevin

AU - Jaffer, Arzina

AU - Kutluberk, Eren

AU - Arora, Rohit

AU - Raredon, Micha Sam Brickman

AU - Cao, Leslie

AU - Swanson, Scott

AU - Jiang, P.

AU - Hee, Olivia

AU - Pope, Hannah

AU - Workentine, Matt

AU - Todkar, Kiran

AU - Sharma, Nilesh

AU - Bharadia, Shyla

AU - Chockalingam, Keerthana

AU - de Almeida, Luiz G.N.

AU - Adam, Mike

AU - Niklason, Laura

AU - Potter, S. Steven

AU - Seifert, Ashley W.

AU - Dufour, Antoine

AU - Gabriel, Vincent

AU - Rosin, Nicole L.

AU - Stewart, Ron

AU - Muench, Greg

AU - McCorkell, Robert

AU - Matyas, John

AU - Biernaskie, Jeff

PY - 2022/12/8

Y1 - 2022/12/8

N2 - Adult mammalian skin wounds heal by forming fibrotic scars. We report that full-thickness injuries of reindeer antler skin (velvet) regenerate, whereas back skin forms fibrotic scar. Single-cell multi-omics reveal that uninjured velvet fibroblasts resemble human fetal fibroblasts, whereas back skin fibroblasts express inflammatory mediators mimicking pro-fibrotic adult human and rodent fibroblasts. Consequently, injury elicits site-specific immune responses: back skin fibroblasts amplify myeloid infiltration and maturation during repair, whereas velvet fibroblasts adopt an immunosuppressive phenotype that restricts leukocyte recruitment and hastens immune resolution. Ectopic transplantation of velvet to scar-forming back skin is initially regenerative, but progressively transitions to a fibrotic phenotype akin to the scarless fetal-to-scar-forming transition reported in humans. Skin regeneration is diminished by intensifying, or enhanced by neutralizing, these pathologic fibroblast-immune interactions. Reindeer represent a powerful comparative model for interrogating divergent wound healing outcomes, and our results nominate decoupling of fibroblast-immune interactions as a promising approach to mitigate scar.

AB - Adult mammalian skin wounds heal by forming fibrotic scars. We report that full-thickness injuries of reindeer antler skin (velvet) regenerate, whereas back skin forms fibrotic scar. Single-cell multi-omics reveal that uninjured velvet fibroblasts resemble human fetal fibroblasts, whereas back skin fibroblasts express inflammatory mediators mimicking pro-fibrotic adult human and rodent fibroblasts. Consequently, injury elicits site-specific immune responses: back skin fibroblasts amplify myeloid infiltration and maturation during repair, whereas velvet fibroblasts adopt an immunosuppressive phenotype that restricts leukocyte recruitment and hastens immune resolution. Ectopic transplantation of velvet to scar-forming back skin is initially regenerative, but progressively transitions to a fibrotic phenotype akin to the scarless fetal-to-scar-forming transition reported in humans. Skin regeneration is diminished by intensifying, or enhanced by neutralizing, these pathologic fibroblast-immune interactions. Reindeer represent a powerful comparative model for interrogating divergent wound healing outcomes, and our results nominate decoupling of fibroblast-immune interactions as a promising approach to mitigate scar.

KW - fetal human fibroblast

KW - fibroblast

KW - immune modulation

KW - inflammation

KW - inflammatory priming

KW - myeloid cell maturation

KW - reindeer

KW - scar

KW - skin regeneration

KW - stromal-immune crosstalk

KW - wound healing

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U2 - 10.1016/j.cell.2022.11.004

DO - 10.1016/j.cell.2022.11.004

M3 - Article

C2 - 36493752

SN - 0092-8674

VL - 185

SP - 4717-4736.e25

JO - Cell

JF - Cell

IS - 25

ER -

Fibroblast inflammatory priming determines regenerative versus fibrotic skin repair in reindeer

Abstract

Keywords

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