5 resultados para Tolerance mechanisms
em DigitalCommons@The Texas Medical Center
Resumo:
Disulfoton (O,O, diethyl S-2-(ethylthio)ethyl phosphorodithioate) and other organophosphorus ester compounds are insecticides which inhibit acetylcholinesterase. Chemicals of this class cause signs of toxicity in mammals which are referable to acculmulation of acetylcholine at neuroeffector sites. A tolerance to this toxic action can be induced in experimental animals by giving multiple, sublethal doses of the compounds. There is strong evidence that disulfoton tolerance occurs because of a reduction in the sensitivity of tissues in the affected animals to acetylcholine.^ Experiments were designed to test the possibility that a decrease in the number of muscarinic cholinergic receptors could be downmodulating the sensitivity of tissues to acetylcholine. It was found that, concomitant with the onset of disulfoton tolerance, there was a decrease relative to control values in the specific binding of {('3)H} quinuclidinyl benzilate ({('3)H}QNB, a compound which selectively labels muscarinic cholinergic receptors) to homogenates of rat brain and ileal muscle. The decrease in {('3)H}QNB binding was due to a reduction in the density of muscarinic receptors. There was, however, no alteration in the binding of {('3)H} QNB, or the muscarinic agonists {('3)H} oxotremorine-M and oxotremorine to atria from disulfoton-tolerant rats. The possibility that cardiac tissue was not subsensitive to cholinergic agonists was ruled out in experiments testing the effect of the muscarinic agonist carbachol on heart rate in vivo, and the negative chronotropic effect of oxotremorine on atria from disulfoton-tolerant rats: a clear reduction in the sensitivity to cholinergic agonists was seen in each case. It was, therefore concluded that the specificity and temporal correlation of {('3)H}QNB binding decreases suggested that the loss of muscarinic receptors might play a role in modulating the sensitivity of several tissues to acetylcholine, but that other mechanisms also contribute to the tolerance phenomenon.^ Other experiments revealed that disulfoton tolerance, as measured by resistance to the lethal effects of carbachol, could be induced by feeding rats low levels of the organophosphorus ester in the diet. The concentration of disulfoton used inhibited acetylcholinesterase, but not to the extent that overt signs of toxicity were observed. These results suggested that tolerance to organophosphorus ester insecticides could be induced in rodents with a dosing scheme which more closely modeled the sort of low level exposures which would be expected in humans environmentally or occupationally in contact with these compounds. ^
Resumo:
Class I MHC proteins have been shown to induce accelerated rejection or prolong survival of allografts in various experimental models. These immunological effects have been attributed to the highly polymorphic alpha helical regions of the extracellular portions of the class I MHC molecule. The present experiments were designed to elucidate the immunomodulatory effects of these polymorphic regions and delineate the mechanisms involved. Soluble allochimeric class I MHC proteins were produced by substituting the PVG class I MHC RT1.Ac amino acid residues within the a 1 helical region with those of the donor BN ( a 1hn-RT1.Ac), the a 2 helical region of BN ( a 2hn-RT1.Ac), and both the a 1 and a 2 helical regions (RT1.An). The class I MHC proteins were produced in an E. coli protein expression system. The a 2hn-RT1.Ac and RT1.An proteins, when administered subcutaneously into PVG hosts 7 days prior to transplantation, resulted in accelerated rejection of BN cardiac allografts. The a 1hn-RT1.Ac construct did not demonstrate such immunogenic effects. Intra-portal administration of a 1hn-RT1.Ac or RT1.An, in combination with perioperative CsA, induced tolerance to BN cardiac allografts. The a 1hn-RT1.Ac protein was able to induce tolerance in a larger majority of the PVG recipients and at a lower dose of protein when compared to the RT1.An protein. RT1.An administered orally to PVG recipients also induced long term survival of cardiac allografts. In vitro analysis revealed that lymphocytes from tolerant hosts were hyporesponsive to donor splenocytes, but responsive to 3rd party splenocytes. Evaluation of T cell cytokine expression patterns revealed that rejector PVG hosts displayed a Type I T-cell response when re-challenged with donor splenocytes, in contrast to tolerant animals that displayed a Type II T-cell response. FACS analysis of the T cells revealed that the ratio of CD4 to CD8 cells was 3:1 and was consistent in the groups tested suggesting a complex interaction between the subsets of T cells, yielding the observed results. Histologic analysis of the cardiac allografts revealed that tolerant PVG hosts maintained BN cardiac allografts without any evidence of acute or chronic rejection after 300 days post transplant. This body of work has demonstrated that the use of soluble donor/recipient allochimeric class I MHC proteins with a short peri-operative course of CsA resulted in transplant tolerance. This treatment regimen proffers a clinically relevant approach to the induction of tolerance across MHC barriers. ^
Resumo:
Opioids remain the drugs of choice in chronic pain treatment, but opioid tolerance, defined as a decrease in analgesic effect after prolonged or repeated use, dramatically limits their clinical utility. Opioid tolerance has classically been studied by implanting spinal catheters in animals for drug administration. This procedure has significant morbidity and mortality, as well as causing an inflammatory response which decreases the potency of opioid analgesia and possibly affects tolerance development. Therefore, we developed and validated a new method, intermittent lumbar puncture (Dautzenberg et al.), for the study of opioid analgesia and tolerance. Using this method, opioid tolerance was reliably induced without detectable morbidity. The dose of morphine needed to induce analgesia and tolerance using this method was about 100-fold lower than that required when using an intrathecal catheter. Only slight inflammation was found at the injection site, dissipated within seven mm. ^ DAMGO, an opioid μ receptor agonist, has been reported to inhibit morphine tolerance, but results from different studies are inconclusive. We evaluated the effect of DAMGO on morphine tolerance using our newly-developed ILP method, as well as other intrathecal catheter paradigms. We found that co-administration of sub-analgesic DAMGO with morphine using ILP did not inhibit morphine tolerance, but instead blocked the analgesic effects of morphine. Tolerance to morphine still developed. Tolerance to morphine can only be blocked by sub-analgesic dose of DAMGO when administered in a lumbar catheter, but not in cervical catheter settings. ^ Finally, we evaluated the effects of Gabapentin (GBP) on analgesia and morphine tolerance. We demonstrated that GBP enhanced analgesia mediated by both subanalgesic and analgesic doses of morphine although GBP itself was not analgesic. GBP increased potency and efficacy of morphine. GBP inhibited the expression, but not the development, of morphine tolerance. GBP blocked tolerance to analgesic morphine but not to subanalgesic morphine. GBP reversed the expression of morphine tolerance even after tolerance was established. These studies may begin to provide new insights into mechanisms of morphine tolerance development and improve clinical chronic pain management. ^
Resumo:
Prostate cancer (PCa) is one of the leading malignancies affecting men in the Western world. Although tremendous effort has been made towards understanding PCa development and developing clinical treatments in the past decades, the exact mechanisms of PCa are still not clearly understood. Emerging evidence has postulated that a population of stem cell-like cells inside a tumor, termed ‘cancer stem cells (CSCs)’, may be the cells responsible for tumor initiation, progression, recurrence, metastasis and therapy resistance. Like CSC studies in other cancer types, it has been reported that PCa also contains CSCs. However, there remain several unresolved questions that need to be clarified. First, the relationship between prostate CSCs (PCSCs) and therapy resistance (chemo- and radio-) is not known. Herein, we have found that not all CSCs are drug-tolerant, and not all drug-tolerant cells are CSCs. Second, whether primary human PCa (HPCa) actually contain PCSCs remains unclear, due to the well-known fact that we have yet to establish a reliable assay system that can reproducibly and faithfully reconstitute tumor regeneration from single HPCa cells. Herein, after utilizing more than 114 HPCa samples we have provided evidence that immortalized bone marrow-derived stromal cells (Hs5) can help dissociated HPCa cells generate undifferentiated tumors in immunodeficient NOD/SCID-IL2Rγ-/- mice, and the undifferentiated PCa cells seem to have a survival advantage to generate tumors. Third, the evolution of PCa from androgen dependent to the lethally castration resistant (CRPC) stage remains enigmatic, and the cells responsible for CRPC development have not been identified. Herein, we have found a putative cell population, ALDH+CD44+α2β1+ PCa cells that may represent a cell-of-origin for CRPC. Taken together, our work has improved our understanding of PCSC properties, possibly highlighting a potential therapeutic target for CRPC.
Resumo:
IMMUNOLOGICAL MECHANISMS OF EXTRACORPOREAL PHOTOPHERESIS IN CUTANEOUS T CELL LYMPHOMA AND GRAFT VERSUS HOST DISEASE Publication No.___________ Lisa Harn-Ging Shiue, B.S. Supervisory Professor: Madeleine Duvic, M.D. Extracorporeal photopheresis (ECP) is an effective, low-risk immunomodulating therapy for leukemic cutaneous T cell lymphoma (L-CTCL) and graft versus host disease (GVHD), but whether the mechanism(s) of action in these two diseases is (are) identical or different is unclear. To determine the effects of ECP in vivo, we studied regulatory T cells (T-regs), cytotoxic T lymphocytes (CTLs), and dendritic cells (DCs) by immunofluorescence flow cytometry in 18 L-CTCL and 11 GVHD patients before and after ECP at Day 2, 1 month, 3 months, and 6 months. In this study, ECP was effective in 12/18 L-CTCL patients with a 66.7% overall response rate (ORR) and 6/11 GVHD patients with a 54.5% ORR. Prior to ECP, the percentages of CD4+Foxp3+ T cells in 9 L-CTCL patients were either lower (L-CTCL-Low, n=2) or higher (L-CTCL-High, n=7) than normal. Five of the 7 GVHD patients had high percentages of CD4+Foxp3+ T cells (GVHD-High). Six of 7 L-CTCL-High patients had >80% CD4+Foxp3+ T cells which were correlated with tumor cells, and were responders. Both L-CTCL-High and GVHD-High patients had decreased percentages of CD4+Foxp3+ and CD4+Foxp3+CD25- T cells after 3 months of treatment. CD4+Foxp3+CD25+ T cells increased in GVHD-High patients but decreased in L-CTCL-High patients after 3 months of ECP. In addition, numbers of CTLs were abnormal. We confirmed that numbers of CTLs were low in L-CTCL patients, but high in GVHD patients prior to ECP. After ECP, CTLs increased after 1 month in 4/6 L-CTCL patients whereas CTLs decreased after 6 months in 3/3 GVHD patients. Myeloid (mDCs) and plasmacytoid DCs (pDCs) were also low at baseline in L-CTCL and GVHD patients confirming the DC defect. After 6 months of ECP, numbers and percentages of mDCs and pDCs increased in L-CTCL and GVHD. MDCs were favorably increased in 8/12 L-CTCL responders whereas pDCs were favorably increased in GVHD patients. These data suggest that ECP is favorably modulating the DC subsets. In L-CTCL patients, the mDCs may orchestrate Th1 cell responses to overcome immune suppression and facilitate disease regression. However, in GVHD patients, ECP is favorably down-regulating the immune system and may be facilitating immune tolerance to auto-or allo-antigens. In both L-CTCL and GVHD patients, DCs are modulated, but the T cell responses orchestrated by the DCs are different, suggesting that ECP modulates depending on the immune milieu. _______________
