Maria Silva

A reporter transgene indicates renal-specific induction of tumor necrosis factor (TNF) by shiga-like toxin. Possible involvement of TNF in hemolytic uremic syndrome.

We have examined the hypothesis that TNF may play a pathogenetically important role in the hemolytic uremic syndrome. Specifically, we considered the possibility that shigatoxin, which eventuates this syndrome, might induce TNF biosynthesis, and/or that TNF and shigatoxin might sensitize animals, each to the toxic effects of the other agent. Shigatoxin was found to sensitize mice to the lethal effect of LPS and to the lethal effect of TNF. On the other hand, pretreatment of animals with either TNF or LPS did not noticeably sensitize mice to the lethal effect of shigatoxin. Intraperitoneal injections of shigatoxin did not induce the production of detectable quantities of TNF in the plasma of mice. When shigatoxin was injected into transgenic mice bearing a chloramphenicol acetyltransferase (CAT) reporter gene that indicates TNF synthesis, CAT activity was induced within the kidney, but not in other tissues. We therefore conclude that shigatoxin acts to induce TNF synthesis within the kidney, and at the same time increases renal sensitivity to the toxic effects of TNF. While this mouse model does not reproduce the hemolytic uremic syndrome as it occurs in humans, it does suggest that local synthesis of TNF within the kidney may contribute to renal injury induced by shigatoxin.

Tumor necrosis factor inhibitor ameliorates murine intestinal graft-versus-host disease☆☆☆

BACKGROUND & AIMSnTransfer of T helper cells from DBA/2 mice to irradiated allogeneic B6D2F1 mice leads to development of colonic graft-versus-host disease with pathological features of inflammatory bowel disease. To examine the role of tumor necrosis factor (TNF) in graft-versus-host disease enteropathy, an adenoviral vector encoding a TNF inhibitor protein was administered.nnnMETHODSnIrradiated B6D2F1 mice were infused with DBA/2 bone marrow and spleen cells. Mice then received either a control beta-galactosidase-encoding adenovirus or an adenovirus encoding a TNF inhibitor, composed of the extracellular domain of the human 55-kilodalton TNF receptor linked to the murine immunoglobulin G1 heavy chain. Mucosal permeability to sucralose and colonic histology were assessed 14 and 25 days after transplantation.nnnRESULTSnLess diarrhea was observed in DBA/2 --> B6D2F1 mice expressing the TNF inhibitor, and colonic sections from these mice had significantly less inflammation and epithelial cell abnormalities. In TNF inhibitor recipients, mucosal permeability to sucralose was similar to that in nonirradiated control mice and significantly less than in recipients of the control adenovirus.nnnCONCLUSIONSnTNF inhibition decreases the severity of enteropathy in the DBA/2 --> B6D2F1 murine model of colonic graft-versus-host disease.

Adenoviral Vectors Given Intravenously to Immunocompromised Mice Yield Stable Transduction of the Colonic Epithelium

BACKGROUND & AIMSnAdenoviral vectors have been used for gene transfer in the liver but not for gene transfer in intestinal tissue. The aim of this study was to show that in selectively immunocompromised mice injected intravenously with a recombinant adenovirus, higher levels of a reporter gene are expressed in the colon than in the liver.nnnMETHODSnAdenovirus encoding beta-galactosidase was injected intravenously in lethally irradiated B6D2F1 mice that had received syngeneic B6D2F1 bone marrow and spleen cell transplants, in athymic mice, in mice treated with 2-chlorodeoxyadenosine, or in normal mice. Enzymatic assays and polymerase chain reaction analysis were performed on colonic tissue obtained months after transduction. Colonic tissues were also stained for beta-galactosidase.nnnRESULTSnIntravenous adenoviral administration yielded long-term expression of a foreign gene in liver and colonic epithelium in transiently immunocompromised recipients. Histological analysis suggested that stem cell transfection and integration of the foreign gene may have occurred insofar as crypts and colonic epithelial cells in immunocompromised animals stained positive for beta-galactosidase months after virus administration. In polymerase chain reaction analysis, the transverse and distal colon of syngeneic bone marrow transplant recipients showed long-term retention of beta-galactosidase gene.nnnCONCLUSIONSnLong-term transduction of colonic epithelial cells is observed after administration of adenoviral vectors by an intravenous route in selectively immunocompromised mice.

Lymphoid hyperplasia, CD45RBhigh to CD45RBlow T-cell imbalance, and suppression of Type I diabetes mellitus result from TNF blockade in NOD→NOD-scid adoptive T cell transfer

Summary Sustained antibody-mediated inhibition of tumor necrosis factor (TNF) activity offers protection against Type I (insulin-dependent) diabetes mellitus in non-obese diabetic (NOD) mice. The mechanism of this effect, however, has remained obscure: TNFα might be required for the development of specific immune responses to islet antigens or it could directly participate in destruction of beta cells. In this study, autoimmune destruction of beta cells was initiated in NOD-severe combined immunodeficient (scid) mice by transfer of NOD splenic T-cells to induce diabetes. The blockade of TNFα activity was achieved during a narrow window of time after transfer. Transient inhibition of TNFα greatly reduced the number of islet lymphocytes and the incidence of diabetes in recipients of prediabetic NOD spleen cells. Protection extended beyond the interval of effective TNF blockade. Furthermore, the protective effect was only observed if cells were obtained from 6-week-old donors. The suppression of autoimmunity was reversible in the context of adoptive transfer as indicated by the transfer of splenocytes from the primary recipient to a second NOD-scid host led to a diabetic outcome. The blockade of TNFα was accompanied by a considerable increase in spleen size and doubling of the total splenocyte count, suggesting that TNFα might normally eliminate a transplanted T-cell subset within the recipients. Further analysis showed an increase in the absolute count of CD4 + T cells and pronounced distortion of the CD45RBhigh to CD45RBlow ratio, with a relative augmentation in the CD45RBlow count in the spleen. TNFα appears to regulate the number and subtype distribution of a transplanted T cell population. [Diabetologia (1998) 41: 1502–1510]