PMID: 8608234Feb 15, 1996Paper

Autoimmune manifestations in the transforming growth factor-beta 1 knockout mouse.

Blood
L YaswenS Karlsson

Abstract

Targeted disruption of the transforming growth factor-beta 1 (TGF-beta 1) gene in mice results in the development of a massive multifocal inflammatory disease in many tissues. Because no detectable pathogen was identified, we examined whether autoimmune mechanisms played a role in initiating or maintaining the inflammatory disease. The serum of TGF-beta 1 knockout mice contained elevated titers of antibodies to nuclear antigens (ssDNA, dsDNA, Sm, and RNP) as well as reactivity against the 16/6 idiotype (16/6 Id). In addition, Ig deposits were detected in renal glomeruli of TGF- beta 1 knockout mice. Transplantation of TGF-beta 1 knockout hematopoietic cells into normal irradiated recipients resulted in a similar profile of autoantibody production as well as in the induction of inflammatory lesions. Our results describe autoimmune activity that ensues when the TGF-beta 1 cytokine is absent.

Related Concepts

Related Feeds

Blood And Marrow Transplantation

The use of hematopoietic stem cell transplantation or blood and marrow transplantation (bmt) is on the increase worldwide. BMT is used to replace damaged or destroyed bone marrow with healthy bone marrow stem cells. Here is the latest research on bone and marrow transplantation.

Allogenic & Autologous Therapies

Allogenic therapies are generated in large batches from unrelated donor tissues such as bone marrow. In contrast, autologous therapies are manufactures as a single lot from the patient being treated. Here is the latest research on allogenic and autologous therapies.

Autoimmune Diseases

Autoimmune diseases occur as a result of an attack by the immune system on the body’s own tissues resulting in damage and dysfunction. There are different types of autoimmune diseases, in which there is a complex and unknown interaction between genetics and the environment. Discover the latest research on autoimmune diseases here.