Similarly, bleomycin-induced fibrosis of the skin was enhanced in Lsp−/− mice [26]. Fibrocytes from patients with thermal burns and those from normal donors have substantially less capacity for collagen production than do dermal fibroblasts [27]. When conditioned medium from fibrocytes derived from burned individuals was incubated
with dermal fibroblasts, they exhibited accelerated proliferation when compared to those incubated in medium from control fibrocytes. These effects could be blocked with TGF-β neutralizing antibodies [27]. These same investigators have shown that IFN-α2b can reduce scar formation following selleck kinase inhibitor thermal injury by attenuating fibrocyte activity and reducing their numbers [28]. With regard to the kidney, the participation of bone marrow-derived stem cells remains controversial Selleckchem Belinostat [29]. Results generated in a number of models of renal injury suggest that these stem cells can localize to specific areas of the kidney and might facilitate tissue regeneration. Thus, their therapeutic potential in several forms of human kidney dysfunction is under evaluation. The outcome of such studies will probably influence the research being conducted in allied
disease processes involving other organs and tissues. Graves’ disease represents an autoimmune process where the thyroid becomes enlarged and overactive [30]. The basis for the over-production of thyroid hormones and gland enlargement in this disease involves the production and activity of autoantibodies targeting the thyrotrophin (aka thyroid-stimulating
hormone) receptor (TSHR). In addition, the IGF-1 receptor (IGF-1R) is over-expressed by orbital fibroblasts Morin Hydrate [31], B [32] and T cells [33,34] in patients with the disease. IGF-1R represents a second potentially pathogenic autoantigen that may account for abnormal thyroid enlargement and underlie the trafficking of lymphocytes to affected tissues, including the pretibial skin and orbit. Pritchard et al. [31] have suggested that T cell trafficking to the orbit in Graves’ disease might be mediated through fibroblast responses to IGF-1 and Graves’ disease-immunoglobulin G (GD-IgG). When exposed to either agent, these fibroblasts express high levels of the T cell chemoattractants, IL-16 and regulated on activation normal T cell expressed and secreted (RANTES). The fibroblast response is mediated through IGF-1R activation and post-receptor signalling through the FRAP/mTor/Akt/p70s6k pathway. It is absent in fibroblasts derived from healthy donors [35]. In addition to the generation of chemoattractants, thyroid-associated ophthalmopathy (TAO) orbital fibroblasts synthesize high levels of hyaluronan, in response to either GD-IgGs or IGF-1. Hyaluronan is a non-sulphated glycosaminoglycan, the accumulation of which is thought to result in tissue oedema [36]. Orbital connective tissue derives in large part from neural ectoderm [37]. This tissue has a special propensity for inflammation.