The lazaroid U-83836E improves the survival of rat embryonic mesencephalic tissue stored at 4°C and subsequently used for cultures or intracerebral transplantation

Abstract

We assessed the effects of addition of the lazaroid U-83836E to a preservation medium on the survival of rat dopamine neurons stored before culturing or intracerebral transplantation. Embryonic ventral mesencephalic tissue was preserved at 4°C for 8 days with or without the addition of 0.3 μM of U-83836E to a chemically defined “hibernation” medium. Freshly dissected mesencephalic tissue was used in control groups. For culture experiments, the mesencephalic tissue was dissociated and grown in serum-containing medium. Following 24–48 h in vitro, the number of dopamine neurons in cultures derived from tissue hibernated without the lazaroid was 40% of fresh control, compared with 67% of control in cultures prepared from tissue stored in the presence of U-83836E. When mesencephalic tissue was transplanted to the dopamine-depleted striatum of hemiparkinsonian rats following 8 days storage at 4°C in a medium without U-83836E, the mean number of surviving dopamine neurons in the grafts was significantly reduced to 40% of control. In contrast, grafts of tissue which had been hibernated in U-83836E-containing medium contained as many dopamine neurons as transplants of freshly dissected tissue. High yields of surviving grafted dopamine neurons were correlated to a significantly faster onset of functional recovery of amphetamine-induced motor asymmetry. We conclude that the storage period for rat mesencephalic tissue can be prolonged up to 8 days when using lazaroid-supplemented hibernation medium. As lazaroids have undergone clinical safety testing, the application of lazaroids for tissue storage in clinical transplantation trials can be envisaged.