Yu-Lieh Lin scite author profile

Adipose tissue resident B cells account for more than 20% of stromal cells within visceral adipose tissues; however, their functions in the adipose tissue niche are poorly elucidated. Here we report that miR-150 modulates adipose tissue function by controlling activation of B cells and their interactions with other immune cells. miR-150KO mice displayed exacerbated obesity-associated tissue inflammation and systemic insulin resistance, which is recapitulated by adoptive transfer of B cells, but not purified immunoglobulin, into obese Bnull mice. Using purified cell populations, we found that enhanced proinflammatory activation of adipose tissue T cells and macrophages was due to miR-150KO B cells action but not cell-autologous mechanisms. miR-150KO B cells displayed significantly enhanced antigen presentation upon stimulation, ultimately leading to elevated inflammation and insulin resistance, compared to wild type B cells. Knockdown of identified miR-150 target genes, Elk1, Etf1 or Myb attenuated B cell action by altering B cell receptor pathways and MHCII cell surface presentation. Our results demonstrate a critical role for miR-150 in regulating B cell functions in adipose tissue which ultimately regulate both metabolic and immunologic homeostasis in the adipose tissue niche.

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BMP9 stimulates joint regeneration at digit amputation wounds in mice

Dawson

Yan

et al. 2019

Nat Commun

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A major goal of regenerative medicine is to stimulate tissue regeneration after traumatic injury. We previously discovered that treating digit amputation wounds with BMP2 in neonatal mice stimulates endochondral ossification to regenerate the stump bone. Here we show that treating the amputation wound with BMP9 stimulates regeneration of a synovial joint that forms an articulation with the stump bone. Regenerated structures include a skeletal element lined with articular cartilage and a synovial cavity, and we demonstrate that this response requires the Prg4 gene. Combining BMP2 and BMP9 treatments in sequence stimulates the regeneration of bone and joint. These studies provide evidence that treatment of growth factors can be used to engineer a regeneration response from a non-regenerating amputation wound.

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Adult Mouse Digit Amputation and Regeneration: A Simple Model to Investigate Mammalian Blastema Formation and Intramembranous Ossification

Dawson

Brunauer

Zimmel

et al. 2019

JoVE

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Hyaline cartilage differentiation of fibroblasts in regeneration and regenerative medicine

Lin

Yan

et al. 2022

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Amputation injuries in mammals are typically non-regenerative, however joint regeneration is stimulated by BMP9 treatment (Yu et al., 2019) indicating the presence of latent articular chondrocyte progenitor cells. BMP9 induces a battery of chondrogenic genes in vivo, and a similar response is observed in cultures of amputation wound cells. Extended cultures of BMP9 treated cells results in differentiation of hyaline cartilage and single cell RNAseq analysis identified wound fibroblasts as BMP9 responsive. This culture model was used to identify a BMP9 responsive adult fibroblast cell line and a culture strategy was developed to engineer hyaline cartilage for engraftment into an acutely damaged joint. Transplanted hyaline cartilage survived engraftment and maintained a hyaline cartilage phenotype but did not form mature articular cartilage. In addition, individual hypertrophic chondrocytes were identified in some samples indicating that the acute joint injury site can promote osteogenic progression of engrafted hyaline cartilage. The findings identify fibroblasts as a cell source for engineering articular cartilage and establishes a novel experimental strategy that bridges the gap between regeneration biology and regenerative medicine.

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Microcomputed tomography staging of bone histolysis in the regenerating mouse digit

Ketcham

Imholt

Yan

et al. 2022

Wound Repair Regeneration

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Yu-Lieh Lin

miR-150 regulates obesity-associated insulin resistance by controlling B cell functions

BMP9 stimulates joint regeneration at digit amputation wounds in mice

Adult Mouse Digit Amputation and Regeneration: A Simple Model to Investigate Mammalian Blastema Formation and Intramembranous Ossification

Hyaline cartilage differentiation of fibroblasts in regeneration and regenerative medicine

Microcomputed tomography staging of bone histolysis in the regenerating mouse digit

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