Prevention of transplant rejection can tolerance be achieved with immunosuppressive treatment?

Successful solid organ transplantation is generally attributed to the increasingly precise ability of drugs to control rejection. However, it was recently shown that a few donor haematolymphoid cells can survive for decades in recipients of successful organ allografts, a phenomenon called microchimaerism. The association for decades of haematolymphoid chimaerism with allograft tolerance in experimental transplantation suggests that immunosuppressive drugs merely create a milieu that enables an allograft and its complement of passenger leucocytes to prime the recipient for graft acceptance. Exploitation of this concept requires a fundamental shift in the classical view of passenger leucocytes only as initiators of rejection. Microchimaerism has taught us that solid organ transplantation involves the transfep-öTEwo3öTK}r organ systems to the recipient: the allograft parenchyma an-4oHg-4oonor'-4y&eWtolymphoid system in the form of donor stem cells contajfletwit|4Q(Xj pas-4MTger leucocyte compartment. Each has the potential to integral witty-4-4orrespSnping recipient system and carry out normal physiologi|:a£futy-4ijj£jvwlta5irnmunological self definition. Resistance to initial integralen r-4WMjure £als requires some form of immunosuppression, but mainterçad-4 of donor-4Rjraiine system function will depend on renewable supply of cells, v-4Jrf-4Siyi-4jj-4fvided by engrafted progenitors. Successful clinical application willctepcrrtTon the development of low morbidity methods to enhance engraftment of donor haemopoietic stem cells. Adis international Limited All rights reserved

GABA receptors inhibited by benzodiazepines mediate fast inhibitory transmission in the central amygdala

The amygdala is intimately involved in emotional behavior, and its role in the generation of anxiety and conditioned fear is well known. Benzodiazepines, which are commonly used for the relief of anxiety, are thought to act by enhancing the action of the inhibitory transmitter GABA. We have examined the properties of GABA-mediated inhibition in the amygdala. Whole-cell recordings were made from neurons in the lateral division of the central amygdala. Application of GABA evoked a current that reversed at the chloride equilibrium potential. Application of the GABA antagonists bicuculline or SR95531 inhibited the GABA-evoked current in a manner consistent with two binding sites. Stimulation of afferents to neurons in the central amygdala evoked an IPSC that was mediated by the release of GABA. The GABA(A) receptor antagonists bicuculline and picrotoxin failed to completely block the IPSC. The bicuculline-resistant IPSC was chloride-selective and was unaffected by GABA(B)-receptor antagonists. Furthermore, this current was insensitive to modulation by general anesthetics or barbiturates. In contrast to their actions at GABA(A) receptors, diazepam and flurazepam inhibited the bicuculline-resistant IPSC in a concentration-dependent manner. These effects were fully antagonized by the benzodiazepine site antagonist Ro15-1788. We conclude that a new type of ionotropic GABA receptor mediates fast inhibitory transmission in the central amygdala. This receptor may be a potential target for the development of new therapeutic strategies for anxiety disorders

Xenobiotics, chimerism and the induction of tolerance following organ transplantation

The successful results seen after organ transplantation are largely attributable to the potency and specificity of modern immunosuppressive agents. Although drug-free unresponsiveness to graft alloantigens has not been routinely achieved in clinical practice, recent appreciation of the importance of cell chimerism, which develops after the migration from donor to host of leukocytes contained in solid organ grafts, has introduced a concept which may explain the mechanism of graft tolerance. Recent evidence has indicated that immunosuppressive drugs may have a common potential to induce graft tolerance, even though they act through diverse mechanisms, and that this potential may be mediated by a permissive effect on the migration and survival of donor-derived leukocytes. This review briefly examines the mechanisms by which immunosuppressive drugs function and analyses the different methods which these agents might use to induce chimerism associated with graft tolerance. Furthermore, we describe ongoing clinical studies in which the chimerism produced after solid organ transplantation is augmented with donor bone marrow in an attempt to facilitate the induction of tolerance

In vitro characterization of rat bone marrow-derived dendritic cells and their precursors

Although the rat is commonly used for basic immunology and transplantation research, phenotypic and functional characterization of rat dendritic cells (DCs) lags behind similar studies in the human and mouse. Therefore, these features were examined using DCs propagated from cultures of rat bone marrow maintained in a medium supplemented with granulocyte-monocyte colony-stimulating factor. Analysis of cytospin preparations of cultured cells showed that DCs arise from OX7+ myelomonocytic precursors. Typical mature rat DCs were morphologically similar to their mouse and human counterparts and expressed major histocompatibility complex (MHC) class II (common part determinant of Ia), OX62 (integrin molecule), OX7 (CD90), ICAM-1 (CD54), and CTLA4 counterreceptor, but were negative for OX8 (CD8), OX19 (CD5), W3/25 (CD4), and ED2, a rat macrophage marker. Functional analysis of OX62+ sorted DCs showed that they could effectively present the soluble antigen ovalbumin to naive T cells in vitro. A combination of anti-MHC class II monoclonal antibody and CTLA4-immunoglobulin inhibited allostimulatory ability more effectively than either reagent alone. Implications for studying the role of DCs in immune responses in the rat are discussed

Variable chimerism, graft - Versus - Host disease, and tolerance after different kinds of cell and whole organ transplantation from lewis to brown Norway rats

The bidirectional paradigm of tolerance involving reciprocal host vs. graft and graft vs. host reactions was examined after Lewis (LEW) → Brown Norway (BN) transplantation of different whole organs (liver, intestine, heart, and kidney) or of 2.5 × l08 LEW leukocytes obtained from bone marrow, spleen, lymph nodes, and thymus. The experiments were performed without immunosuppression or under 14 daily doses of postoperative tacrolimus, which were continued in weekly doses to 100 days in a “continuous treatment” subgroup, and to 27 days in a short treatment group. Without immunosuppression, all organs and cell suspensions failed to engraft or were acutely rejected.GVHD (usually fatal) was always caused when either the long or short treatment was used for recipients of intestinal grafts and cell suspensions of spleen and lymph nodes. In contrast, both immunosuppressive protocols allowed engraftment of bone marrow cells, liver, heart, and kidney without clinical GVHD, whereas thymus cell suspensions and small doses of whole blood neither engrafted nor caused GVHD. At 100 days, now drug-free for 73 days, the liver, bone marrow, and heart recipients were tolerant in that they accepted all challenge LEW heart and/or liver grafts for 100 more days despite in vitro evidence of donor-specific reactivity (split tolerance). At 200 days, histopathologic studies of the challenge livers were normal no matter what the priming graft. However, the still-beating challenge hearts had a spectrum from normal to severe chronic rejection that defined the tolerogenicity of the original primary grafts: liver best → bone marrow next → heart least. Both the GVHD propensity and tolerogenicity in these experiments were closely associated with recipient tissue chimer-ism 30 and 100 days after the experiments began. The tissue chimerism was invariably multilineage, but the GVHD outcome was associated with T cell over-repre-sentation. These observations provide guidelines that should be considered in devising leukocyte augmentation protocols for human whole organ recipients. The results are discussed in relation to the historical tolerance studies of Billingham, Brent, and Medawar; Good; Monaco; and Caine. © 1995 by Williams and Wilkins