We have generated transgenic mouse lines carrying and expressing wild‐type and 3′‐modified human tumour necrosis factor (hTNF‐alpha, cachectin) transgenes. We show that correct, endotoxin‐responsive and macrophage‐specific hTNF gene expression can be established in transgenic mice and we present evidence that the 3′‐region of the hTNF gene may be involved in macrophage‐specific transcription. Transgenic mice carrying 3′‐modified hTNF transgenes shows deregulated patterns of expression and interestingly develop chronic inflammatory polyarthritis. Treatment of these arthritic mice with a monoclonal antibody against human TNF completely prevents development of this disease. Our results indicate a direct involvement of TNF in the pathogenesis of arthritis. Transgenic mice which predictably develop arthritis represent a novel genetic model by which the pathogenesis and treatment of this disease in humans may be further investigated.
To evaluate the biologic potential of T cell-specific TNF production in vivo, we have generated transgenic mice constitutively expressing TNF in their T cell compartment. This was achieved by placing a wild-type or a 3'-UTR modified fragment of the human TNF gene under the influence of the T cell-specific, locus control region of the human CD2 gene. Transgenic mice that express human TNF mRNA in T cells develop marked histologic and cellular changes locally in their lymphoid organs and a lethal wasting syndrome associated with widespread vascular thrombosis and tissue necrosis. The extent of pathologic changes and their time of onset appear to reflect levels of transgene expression. Thus, transgenic lines that express the transgene at high levels show both lymphoid organ and systemic abnormalities with wasting. In one transgenic line, mice express lower levels of the transgene and develop normally despite pronounced local lymphoid organ defects, confirming in vivo, the differential potential of localized and systemic TNF action. All pathologic changes could be neutralized by the administration of mAb specific for human TNF. These results demonstrate the important role of T cell-specific TNF production in the development of specific pathology and provide a means by which to evaluate the role of TNF in thymocyte development. Transgenic mice that express TNF constitutively in the T cell compartment offer a unique in vivo system by which to analyze the molecular character of systemic vs contact-dependent and paracrine modes of TNF action. Furthermore, given the species-specific nature of the mouse p75 TNF receptor, it is assumed that the pathology induced by human TNF in these transgenic mice is associated exclusively with p55 TNF receptor signaling. Conceivably, the differential contribution of each of the two TNF receptors in thymus development and TNF-mediated disease can be assessed by comparison of the biologic potential of human vs mouse TNF in the transgenic system developed.
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