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Sökning: L773:0014 4819 > Widner H

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1.
  • Brundin, Patrik, et al. (författare)
  • Human fetal dopamine neurons grafted in a rat model of Parkinson's disease : immunological aspects, spontaneous and drug-induced behaviour, and dopamine release
  • 1988
  • Ingår i: Experimental Brain Research. - 0014-4819. ; 70:1, s. 192-208
  • Tidskriftsartikel (refereegranskat)abstract
    • We have used a rat model of Parkinson's disease (PD) to address issues of importance for a future clinical application of dopamine (DA) neuron grafting in patients with PD. Human mesencephalic DA neurons, obtained from 6.5-8 week old fetuses, were found to survive intracerebral cell suspension xenografting to the striatum of rats immunosuppressed with Cyclosporin A. The grafts produced an extensive new DA-containing terminal network in the previously denervated caudate-putamen, and they normalized amphetamine-induced, apomorphine-induced and spontaneous motor asymmetry in rats with unilateral lesions of the mesostriatal DA pathway. Grafts from an 11.5-week old donor exhibited a lower survival rate and smaller functional effects. As assessed with the intracerebral dialysis technique the grafted DA neurons were found to restore spontaneous DA release in the reinnervated host striatum to normal levels. The neurons responded with large increases in extracellular striatal DA levels after the intrastriatal administration of the DA-releasing agent d-amphetamine and the DA-reuptake blocker nomifensine, although not to the same extent as seen in striata with an intact mesostriatal DA system. DA fiber outgrowth from the grafts was dependent on the localization of the graft tissue. Thus, grafts located within the striatum gave rise to an extensive axonal network throughout the whole host striatum, whereas grafted DA neurons localized in the neocortex had their outgrowing fibers confined within the grafts themselves. In contrast to the good graft survival and behavioural effects obtained in immunosuppressed rats, there was no survival, or behavioural effects, of human DA neurons implanted in rats that did not receive immunosuppression. In addition, we found that all the graft recipients were immunized, having formed antibodies against antigens present on human T-cells. This supports the notion that the human neurons grafted to the non-immunosuppressed rats underwent immunological rejection. Based on an estimation of the survival rate and extent of fiber outgrowth from the grafted human fetal DA neurons, we suggest that DA neurons that can be obtained from one fetus may be sufficient to restore significant DA neurotransmission unilaterally, in one putamen, in an immunosuppressed PD patient.
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2.
  • Brundin, P, et al. (författare)
  • Intracerebral xenografts of dopamine neurons : the role of immunosuppression and the blood-brain barrier
  • 1989
  • Ingår i: Experimental Brain Research. - 0014-4819. ; 75:1, s. 195-207
  • Tidskriftsartikel (refereegranskat)abstract
    • Fetal mesencephalic mouse tissue, rich in dopamine neurons, was xenografted as a dissociated cell suspension into the striatum of rats with unilateral 6-hydroxydopamine induced lesions of the mesostriatal pathway. The rats were either assigned to a 10-day, 21-day or 42-day Cyclosporin A (CyA) immunosuppression scheme, or given no immunosuppression. The functional effects of the grafts were followed over 6 months by monitoring changes in the recipient rats' amphetamine-induced turning behaviour. Without immunosuppression no grafts were functional at the end of the experiment. In the 10-, 21- and 42-day CyA treatment groups there was a significant reduction of rotational asymmetry at some timepoint following grafting in 26 of the 33 rats. However, by 6 months only 8 grafts remained functional suggesting that in several rats an immunological rejection took place following the termination of immunosuppression. This was supported by catecholamine histofluorescence analysis which revealed evidence of surviving grafts only in the few rats which had shown sustained functional graft effects at 6 months after grafting. In animals in which the grafts had undergone rejection, there was scar-like tissue in the striatum which appeared more extensive in rats that had lost their grafts after several weeks compared to rats in which the grafts were rejected at an early time-point. In a subgroup of the grafted animals the humoral antibody response against major transplantation antigens present on the grafted cells was investigated. All the studied rats were found to be immunized against the grafted mouse tissue following the intrastriatal implantation. This occurred irrespective of prior immunosuppressive treatment. In a parallel group of rats, the leakage of the blood-brain barrier was studied following intrastriatal implantation of a syngeneic fetal neural cell suspension. Evans Blue was infused into rats 3-12 days following transplantation surgery. At the early time-points there was a marked barrier leakage at the implantation site. This subsided with time such that there was minor leakage after 7-8 days and no leakage after 12 days. In summary, the results indicate the CyA is effective in promoting survival of intracerebral xenografts of fetal neural tissue, but that cessation of immunosuppressive treatment in most cases results in rejection of the grafted tissue. Temporary CyA treatment, even exceeding the time it takes for the blood-brain barrier to reform after transplantation surgery, is thus not sufficient to reliably support long term survival of xenografted dopamine neurons.
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3.
  • Duan, W M, et al. (författare)
  • Temporal pattern of host responses against intrastriatal grafts of syngeneic, allogeneic or xenogeneic embryonic neuronal tissue in rats
  • 1995
  • Ingår i: Experimental Brain Research. - 0014-4819. ; 104:2, s. 42-227
  • Tidskriftsartikel (refereegranskat)abstract
    • The host response to immunologically incompatible intrastriatal neural grafts was studied using immunohistochemical techniques. Dissociated ventral mesencephalic tissue from embryonic donors of either syngeneic, allogeneic or xenogeneic (mouse) origin was stereotaxically implanted into adult rats. The brains were analysed 4 days, 2 weeks or 6 weeks after grafting with antibodies against the following antigenic structures: major histocompatibility complex (MHC) class I antigens; MHC class II antigens; complement receptor (CR) 3 (marker for microglia and macrophages); helper T-lymphocyte antigen-cluster of differentiation (CD) 4; cytotoxic T-lymphocyte antigen-CD8; tyrosine hydroxylase (TH) (marker for transplanted dopaminergic neurons). The number of surviving TH-positive cells was not different at the various time points in either the syngeneic or allogeneic groups, whereas the xenogeneic cells were all rejected by 6 weeks. The host reactions were similar in character in the syngeneic and allogeneic groups. At 4 days after implantation, there were increased levels of expression of MHC class I and II antigens. In and around the grafts, there were cellular infiltrates consisting of activated microglia, macrophages, CD4- and CD8-positive lymphocytes. At 6 weeks, MHC expression was reduced and the cellular infiltrates had subsided with only low numbers of activated microglia cells and CD8-positive lymphocytes remaining. In the xenogeneic group, at 4 days, some grafts contained cavities, possibly reflecting acute rejection. At later stages, the xenografts were heavily infiltrated by macrophages, activated microglial cells and T-lymphocytes, and at 6 weeks all the xenografts were rejected. Taken together, the results suggest that there is an inflammation caused by the implantation process which leads to an accumulation of host defence cells. This, in turn, leads to increased MHC expression in and around the grafts. In syngeneic grafts, these reactions are short lasting and weak; for allografts slightly more pronounced and longer lasting than syngeneic grafts, but not sufficient to cause rejection. For xenografts, the reactions are more intense and lead to transplant rejection. Thus, a strong sustained inflammatory response may be an important determinator for the failure of histoincompatible neural grafts. It can be speculated that a short-term anti-inflammatory treatment of graft recipients may be a sufficient immunosuppressive regimen to allow long-term graft survival.
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4.
  • Widner, H, et al. (författare)
  • Survival and immunogenicity of dissociated allogeneic fetal neural dopamine-rich grafts when implanted into the brains of adult mice
  • 1989
  • Ingår i: Experimental Brain Research. - 0014-4819. ; 76:1, s. 97-187
  • Tidskriftsartikel (refereegranskat)abstract
    • The survival of grafts of dissociated allogeneic fetal neural dopamine (DA) rich tissue in the striatum has been studied after transplantation between inbred strains of mice differing at defined immunogenetical loci between donor and recipient. Six to 7 weeks and 15 weeks after grafting, surviving grafted DA neurons were found in the brains of all the recipients, albeit with a large variation in numbers, located either within the striatum or within the adjacent lateral ventricle. The mean number of surviving DA neurons did not differ between the syngeneic controls and the histoincompatible donor-host combinations, and there was no difference in survival between grafts that differed at single or multiple major histocompatibility complex (MHC) loci, and those that differed at multiple non-MHC loci. The amount of inflammatory cells in the graft area did not differ between the groups, and none of the animals showed massive infiltration of inflammatory cells. The in situ immunogenicity of the grafted neural tissue after intracerebral implantation was monitored by means of Simonsen's alloimmunization test, at 6-7 weeks after transplantation, which provides a sensitive measure primarily of the cellular immunological response. Most, but not all, graft recipients showed immunization with a Spleen Index (S.I.) close to that seen in recipients of an orthotopical skin graft of the same histoincompatibility combination. In contrast to the prolonged survival of the intracerebral neural transplants, none of the skin grafts survived longer than 3 weeks, thus demonstrating the immunologically privileged status of the brain. We conclude that intracerebrally grafted allogeneic neural tissue is capable of provoking a cellular immune response. Despite host immunization, however, the dissociated fetal neural allografts survived for at least 15 weeks without any overt signs of rejection, regardless of the donor-host combination used.
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