Hyaluronidase inhibits reactive adipogenesis and inflammation of colon and skin
Tatsuya Dokoshi, Ling-juan Zhang, Teruaki Nakatsuji, Christopher A. Adase, James A. Sanford, Rudolph D. Paladini, Hiroki Tanaka, Mikihiro Fujiya, Richard L. Gallo
Tatsuya Dokoshi, Ling-juan Zhang, Teruaki Nakatsuji, Christopher A. Adase, James A. Sanford, Rudolph D. Paladini, Hiroki Tanaka, Mikihiro Fujiya, Richard L. Gallo
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Research Article Dermatology Inflammation

Hyaluronidase inhibits reactive adipogenesis and inflammation of colon and skin

Abstract

In this study we evaluated the role of hyaluronan (HA) in reactive adipogenesis, a local expansion of preadipocytes that provides host defense by release of antimicrobial peptides. We observed that HA accumulated during maturation of adipocytes in vitro and was associated with increased expression of preadipocyte factor 1, zinc finger protein 423, and early B cell factor 1. Although HA is normally abundant in the extracellular matrix, a further increase in HA staining occurred in mice at sites of reactive adipogenesis following injury of colon by dextran sodium sulfate or injury of skin from infection with Staphylococcus aureus. HA also abundantly accumulated around adipocytes seen in the colons of patients with inflammatory bowel disease. This HA was necessary for adipocyte maturation because digestion of HA by administration of soluble hyaluronidase or transgenic expression of hyaluronidase 1 inhibited adipogenesis in vitro and in vivo. Furthermore, hyaluronidase also suppressed inflammation of both skin and colon and decreased antimicrobial peptide expression by developing preadipocytes. This resulted in increased bacterial transit across the epithelial barrier despite decreased tissue injury from inflammation. These observations suggest HA plays an important role in reactive adipogenesis and host defense after injury.

Authors

Tatsuya Dokoshi, Ling-juan Zhang, Teruaki Nakatsuji, Christopher A. Adase, James A. Sanford, Rudolph D. Paladini, Hiroki Tanaka, Mikihiro Fujiya, Richard L. Gallo

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Figure 6

Hyaluronidase inhibits TNF-α expression, increases bacterial translocation, and improves disease score in colitis.

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Hyaluronidase inhibits TNF-α expression, increases bacterial translocati...
(A and B) Flow cytometry analysis of single-cell suspensions from the colon lamina propria showing expression of LY6G and CD11B from control mice at DSS d0 and DSS d7 and mice treated with PEGPH20 at DSS d0 and DSS d7. Numbers represent the percentage of the cells in the indicated gate. (C) RTqPCR measurements of the relative abundance of TNF-α. mRNA expression was normalized to β-actin (n = 5 mice/group). (D) The histological scores of day 7 samples were measured by the Crohn’s Disease Activity Index. (E and F) Endotoxin concentration in the serum from WT and Ella/hyal1 mice at day 0 or treated with DSS for 7 days (n = 6 control, n = 8 Ella/hyal1, and n = 4 PEGPH20 mice/group). (G) Systemic bacteremia detected after colitis in inflamed tissue from WT and Ella/hyal1 mice (n = 4 mice/group). Representative histology of distal colon sections in colitis of WT, Ella/hyal1, PEGPH20-injected, and BADGE-injected mice were stained with H&E. Data in C and D are represented using box-and-whisker plots, with boxes representing the IQR, lines representing the median value, and whiskers representing minimum and maximum values, whereas data in B and EG are represented as mean ± SEM; *P < 0.05, **P < 0.01, and ***P < 0.001 (Student’s t test). EU, endotoxin units.