Eva M. Frodl scite author profile

In rodent models of Parkinson disease in which transplants of dissociated rodent and human embryonic mesencephalic tissue, rich in dopamine neurons, have been studied, only 5-20% of the dopamine neurons survive the implantation procedure. We have investigated the effects of inhibiting free radical generation with two lazaroids, U-74389G and U-83836E, on the survival of embryonic rat dopamine neurons. U-74389G is a 21-aminosteroid, and U-83836E combines the piperazinyl pyrimidine portion of 21-aminosteroids with the antioxidant ring of a-tocopherol. In an initial study, we found that the lazaroids markedly prolonged the period after tissue dissociation that an embryonic mesencephalic cell suspension exhibits high cell viability in vitro, as assessed by using a dye exclusion method. In a second series of experiments, addition of lazaroids to dissociated mesencephalic graft tissue increased the yield of surviving rat dopamine neurons 2.6-fold after implantation in the dopamine-denervated rat striatum. The improved survival correlated with an earlier onset of graft-induced functional effects in the amphetamineinduced rotation test. Thus, inhibition of free radical generation can significantly increase the yield of grafted embryonic dopamine neurons. Addition of lazaroids to the graft preparation is a relatively simple modification of the transplantation protocol and could readily be applied in a clinical setting. Moreover, since iron-dependent lipid peroxidation has been suggested to play a role in the death of nigral dopamine neurons in Parkinson disease and lazaroids are particularly potent inhibitors of such processes, the findings may have implications for the pathogenesis of this disease.Several studies indicate that grafts of human embryonic dopamine neurons can survive and reduce motor symptoms after transplantation to the brains of patients with Parkinson disease (1). However, the results obtained so far indicate that the symptomatic relief is far from complete and it has been suggested that improved functional effects would be attainable if the grafts contained more surviving dopamine neurons and innervated a larger volume of the denervated parkinsonian striatum (1). Experiments with transplants of rat and human mesencephalic dopamine neurons placed in the rat striatum have shown that on the order of 5-20% of the dopamine neurons that are dissected from the embryos survive the stereotaxic implantation procedure when a protocol similar to that employed clinically is used (2-5). The underlying reason for the relatively poor survival rate of grafted dopamine neurons is not known. However, we have hypothesized (6) that the major loss of dopamine neurons occurs either during dissection and mechanical dissociation of the graft tissue or soon after implantation into the adult brain environment.

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Overexpressing Cu/Zn superoxide dismutase enhances survival of transplanted neurons in a rat model of Parkinson's disease

Nakao

Frodl

Widner

et al. 1995

Nat Med

129

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A high survival rate of grafted dopamine neurons is crucial for reversing neurological deficits following brain tissue transplantation in Parkinson's disease. For unknown reasons the survival rate of transplanted dopamine neurons is only around 10% in experimental animals. The hypothesis that oxidative stress causes the loss of transplanted neurons was tested by grafting neurons from transgenic mice that overexpress Cu/Zn superoxide dismutase. Compared with the survival of those taken from non-transgenic littermates, the survival was 4 times higher for the transgenic dopamine neurons with a concomitant more extensive functional recovery. The results provide direct support for the free radical hypothesis of dopaminergic neuron death in brain tissue grafting.

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Human embryonic dopamine neurons xenografted to the rat: effects of cryopreservation and varying regional source of donor cells on transplant survival, morphology and function

et al. 1994

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Cryopreservation, survival and function of intrastriatal fetal mesencephalic grafts in a rat model of Parkinson's disease

Sauer

Frodl²,

Kupsch³

et al. 1992

Exp Brain Res

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In the present study we quantitatively assessed to what extent freeze-storage at liquid nitrogen temperature influences the survival and function of fetal mesencephalic grafts in the dopamine-depleted rat striatum. Ventral mesencephalic (VM) tissue was dissected from rat fetuses and stored overnight in a preservative medium at 4 degrees C (hibernation). It was grafted intrastriatally either as a fresh cell suspension or was frozen as tissue fragments or as a cell suspension after stepwise incubation in ascending concentrations of dimethyl-sulphoxide. Following a cryopreservation interval of 80 days in liquid nitrogen, the frozen samples were rapidly thawed, rinsed, and grafted. Cellular viabilities of graft cell suspensions, as assessed by ethidium bromide/acridine orange staining, were decreased from 90% in fresh tissue to 38-35% in frozen and thawed tissue. Amphetamine-induced turning behavior at 6 weeks post-grafting was significantly attenuated in hosts that had received fresh grafts or grafts that were frozen as tissue fragments. Tyrosine hydroxylase-(TH-) immunocytochemistry of recipient brains revealed significant decreases in TH-positive graft cell numbers in rats grafted with cryopreserved tissue (38-42% of fresh tissue). Moreover, the dye exclusion viability of thawed VM tissue was found to accurately predict the subsequent graft survival. There was no difference with respect to graft cell numbers between the two freezing methods employed, though block storage seems to be more simple from a practical point of view.(ABSTRACT TRUNCATED AT 250 WORDS)

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Immune reactions following systemic immunization prior or subsequent to intrastriatal transplantation of allogeneic mesencephalic tissue in adult rats

et al. 1995

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Eva M. Frodl

Lazaroids improve the survival of grafted rat embryonic dopamine neurons.

Overexpressing Cu/Zn superoxide dismutase enhances survival of transplanted neurons in a rat model of Parkinson's disease

Human embryonic dopamine neurons xenografted to the rat: effects of cryopreservation and varying regional source of donor cells on transplant survival, morphology and function

Cryopreservation, survival and function of intrastriatal fetal mesencephalic grafts in a rat model of Parkinson's disease

Immune reactions following systemic immunization prior or subsequent to intrastriatal transplantation of allogeneic mesencephalic tissue in adult rats

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