Scott H. Schelling scite author profile

IL-22 is made by a unique set of innate and adaptive immune cells, including the recently identified noncytolytic NK, lymphoid tissue-inducer, Th17, and Th22 cells. The direct effects of IL-22 are restricted to nonhematopoietic cells, its receptor expressed on the surface of only epithelial cells and some fibroblasts in various organs, including parenchymal tissue of the gut, lung, skin, and liver. Despite this cellular restriction on IL-22 activity, we demonstrate that IL-22 induces effects on systemic biochemical, cellular, and physiological parameters. By utilizing adenoviral-mediated delivery of IL-22 and systemic administration of IL-22 protein, we observed that IL-22 modulates factors involved in coagulation, including fibrinogen levels and platelet numbers, and cellular constituents of blood, such as neutrophil and RBC counts. Furthermore, we observed that IL-22 induces thymic atrophy, body weight loss, and renal proximal tubule metabolic activity. These cellular and physiological parameters are indicative of a systemic inflammatory state. We observed that IL-22 induces biochemical changes in the liver including induction of fibrinogen, CXCL1, and serum amyloid A that likely contribute to the reported cellular and physiological effects of IL-22. Based on these findings, we propose that downstream of its expression and impact in local tissue inflammation, circulating IL-22 can further induce changes in systemic physiology that is indicative of an acute-phase response.

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Canine Leptospirosis: A Retrospective Study of 17 Cases

Rentko¹,

Clark²,

Ross

et al. 1992

Veterinary Internal Medicne

123

117

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Seventeen dogs were diagnosed with leptospirosis on the basis of clinical findings, laboratory abnormalities, and serology. This article summarizes and characterizes the historical and physical findings, laboratory data, serology, treatment, and outcome of these dogs. All of the dogs had serologic evidence of infection with interrogans serovars pomona and grippotyphosa. These findings are compared with previous reports of canine infection with Leptospira interrogans serovars icterohaemorrhagiae and canicola. The clinical presentation of these dogs did not correspond to the classic description of the disease in dogs in which concurrent renal and hepatic diseases are present. This may be due to infection with different serovars than those previously reported. In addition, this article suggests that canine leptospirosis should be considered in the differential diagnosis of dogs with acute or subacute renal failure. (Journal of Veterinary Internal Medicine 1992; 6:235-244)

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Double‐knockout of ADAMTS‐4 and ADAMTS‐5 in mice results in physiologically normal animals and prevents the progression of osteoarthritis

Majumdar¹,

Askew²,

Schelling³

et al. 2007

Arthritis & Rheumatism

205

128

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Objective. To phenotypically characterize ADAMTS-4-and ADAMTS-5-double-knockout mice, and to determine the effect of deletion of ADAMTS-4 and ADAMTS-5 on the progression of osteoarthritis (OA) in mice.Methods. Mice lacking the catalytic domain of ADAMTS-4 and ADAMTS-5 were crossed to generate ADAMTS-4/5-double-knockout animals. Twelve-weekold and 1-year-old male and female ADAMTS-4/5-double-knockout mice were compared with age-and sex-matched wild-type (WT) mice by evaluating terminal body weights, organ weights, clinical pathology parameters, PIXImus mouse densitometry findings, and macroscopic and microscopic observations. ADAMTS-4/5-double-knockout mice were challenged by surgical induction of joint instability to determine the importance of these genes in the progression of OA. Articular and nonarticular cartilage explants from WT and ADAMTS-4/5-double-knockout mice were treated with interleukin-1 (IL-1) plus retinoic acid ex vivo, to examine proteoglycan degradation.Results. There were no genotype-related phenotype differences between ADAMTS-4/5-double-knockout and WT mice through 1 year of age, with the exception that female ADAMTS-4/5-double-knockout mice had a lower mean terminal body weight at the 12-week time point. Eight weeks after surgical induction of joint instability, OA was significantly less severe in ADAMTS-4/5-doubleknockout mice compared with WT mice. Following stimulation of cartilage explants with IL-1 plus retinoic acid, aggrecanase-mediated degradation in ADAMTS-4/5-double-knockout mice was ablated, to a level comparable with that in ADAMTS-5-knockout mice.Conclusion. Dual deletion of ADAMTS-4 and ADAMTS-5 generated mice that were phenotypically indistinguishable from WT mice. Deletion of ADAMTS-4/5 provided significant protection against proteoglycan degradation ex vivo and decreased the severity of murine OA. These effects in the ADAMTS-4/5-doubleknockout mice were comparable with those observed with deletion of ADAMTS-5 alone.

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Healing Bone Using Recombinant Human Bone Morphogenetic Protein 2 and Copolymer

Kirker‐Head

Gerhart²,

Armstrong³

et al. 1998

Clinical Orthopaedics and Related Research

123

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