Tumour necrosis factor-alpha (TNF-α) enhances lymphocyte migration into rheumatoid synovial tissue transplanted into severe combined immunodeficient (SCID) mice

Abstract: SUMMARYAdhesion mechanisms play a major role in the recruitment of peripheral blood lymphocytes (PBL) which characteristically infiltrate rheumatoid arthritis (RA) synovium and other chronically inflamed tissues. Through a sequential series of complex integrated adhesion and signalling events,`multistep model of migration', specific subsets of PBL are recruited into inflamed tissues. In this process both leucocyte receptors and microvascular endothelial (MVE) counter-receptors play a critical role. The MVE in … Show more

“…Lymphodepletion has been reported in several similar models. 15,38,39 Likewise, Wahid and colleagues 39 concluded that in the absence of T cells producing the Figure 11. CFSE-labeled human T cells traffic specifically into RA synovial grafts.…”

“…For example, in previous models in which cell suspensions or small pieces of synovium were implanted, lymphodepletion was routinely observed. 15,21,38,39 In some of these models the synovial tissue was implanted under the kidney capsule or in an ear pouch. It is possible that the location of the graft played a role in the lymphodepletion.…”

“…Others have noted similar results by dual staining for human and murine vessels indicating ongoing angiogenesis. 39 The establishment of an anastomosis between murine and human vessels suggests that complex recognition and organization of structural elements might have allowed continuity of vessels. However, it was evident that murine vessels were primarily excluded from the human grafts, whereas human vessels did not infiltrate the surrounding murine tissue.…”

“…39 These cellular adhesion molecules, indicative of an inflammatory state, could be up-regulated once again by intragraft injection of tumor necrosis factor-␣. Several important differences were observed between this report and the current studies in tissue preparation and engraftment.…”

Inflammation, Immune Reactivity, and Angiogenesis in a Severe Combined Immunodeficiency Model of Rheumatoid Arthritis

“…Lymphodepletion has been reported in several similar models. 15,38,39 Likewise, Wahid and colleagues 39 concluded that in the absence of T cells producing the Figure 11. CFSE-labeled human T cells traffic specifically into RA synovial grafts.…”

“…For example, in previous models in which cell suspensions or small pieces of synovium were implanted, lymphodepletion was routinely observed. 15,21,38,39 In some of these models the synovial tissue was implanted under the kidney capsule or in an ear pouch. It is possible that the location of the graft played a role in the lymphodepletion.…”

“…Others have noted similar results by dual staining for human and murine vessels indicating ongoing angiogenesis. 39 The establishment of an anastomosis between murine and human vessels suggests that complex recognition and organization of structural elements might have allowed continuity of vessels. However, it was evident that murine vessels were primarily excluded from the human grafts, whereas human vessels did not infiltrate the surrounding murine tissue.…”

“…39 These cellular adhesion molecules, indicative of an inflammatory state, could be up-regulated once again by intragraft injection of tumor necrosis factor-␣. Several important differences were observed between this report and the current studies in tissue preparation and engraftment.…”

Inflammation, Immune Reactivity, and Angiogenesis in a Severe Combined Immunodeficiency Model of Rheumatoid Arthritis

“…In this model, standardized pieces of synovial tissue from RA patients are transplanted subcutaneously on the back or under the renal capsule of immunodeficient mice (9,10 (14,15). Adoptive T cell transfer into the RA synovium SCID mouse model augmented this cytokine production (14).…”

T cell lessons from the rheumatoid arthritis synovium SCID mouse model: CD3‐rich synovium lacks response to CTLA‐4ig but is successfully treated by interleukin‐17 neutralization

Stromal cell–derived factor 1 (CXCL12) induces monocyte migration into human synovium transplanted onto SCID Mice