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Query: UNIPROT:P50583 (
asymmetrical
)
12,197
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We recently reported behavioral improvements following intrastriatal transplantation of cryopreserved cultured human neuroteratocarcinoma-derived cells (
hNT
neurons) in rats with cerebral ischemia induced by occlusion of the middle cerebral artery. In the present study, the viability and survival of
hNT
neurons were evaluated immediately prior to the transplantation surgery and at 3 months post-transplantation in ischemic rats. Cryopreserved
hNT
neurons were routinely thawed, and trypan blue exclusion viability counts revealed 52-95% viable
hNT
neurons before transplantation. Monthly behavioral tests, starting at 1 month and extending to 3 months post-transplantation, revealed that ischemic animals that were intrastriatally transplanted with
hNT
neurons (approximately 40000) and treated with an immunosuppressive drug displayed normalization of
asymmetrical
motor behavior compared with ischemic animals that received medium alone. Within-subject comparisons of cell viability and subsequent behavioral changes revealed that a high cell viability just prior to transplantation surgery correlated highly with a robust and sustained functional improvement in the transplant recipient. Furthermore, histological analysis of grafted brains revealed a positive correlation between number of surviving
hNT
neurons and degree of functional recovery. In concert with similar reports on fetal tissue transplantation, we conclude that high cell viability is an important criterion for successful transplantation of cryopreserved neurons derived from cell lines to enhance graft-induced functional effects.
...
PMID:Viability and survival of hNT neurons determine degree of functional recovery in grafted ischemic rats. 976 Jan 30
A variety of immortalized cell lines have been proposed to exhibit sufficient phenotypic plasticity to allow them to replace primary embryonic neurons for restorative cell transplantation. In the present experiments we evaluate the functional viability of one particular cell line, the
hNT
cells developed by Layton Bioscience, to replace lost neurons and alleviate
asymmetrical
motor deficits in a unilateral excitotoxic lesion model of Huntington's disease. Because the grafts involved implantation of human-derived cells into a rat host environment, all animals were immunosuppressed. Cyclosporin A and FK-506 were similar in providing effective immunoprotection of the
hNT
xenografts, and whereas the lesions induced a marked inflammatory response in the host brain, this was not exacerbated by the presence of xenograft cells. The presence of grafted cells was determined with the human-specific antigen HuNu, and good graft survival was demonstrated in almost all animals up to the longest survival examined, 16 weeks posttransplantation. Although the cells exhibited progressively greater maturation and differentiation at 10-day, 4- and 16-week time points, staining for the mature neuronal marker NeuN was at best very weak, and we were unable to detect unequivocal staining with any markers of mature striatal phenotype, including DARPP-32, calbindin, parvalbumin, choline acetyl transferase, or NADPH diaphorase (with in all cases positive control provided by good staining on the intact contralateral side of the brain). Nor were we able to detect any differences between rats with lesions alone and rats with grafts in the contralateral motor deficits exhibited in a test of skilled paw reaching or cylinder placing. These results suggest that further and more extensive studies should be undertaken to assess whether
hNT
neurons can show more extensive and appropriate maturation and be associated with recovery in appropriate behavioral models, before they may be considered a suitable replacement for primary embryonic cells for clinical application in Huntington's disease.
...
PMID:Transplanted hNT cells ("LBS neurons") in a rat model of huntington's disease: good survival, incomplete differentiation, and limited functional recovery. 1512 58
