Behavioral effects of fetal neural transplants: relevance to Huntington's disease.

Animal models of Huntington's disease (HD) and other neurological disorders have proven useful for examining the anatomical, neurochemical, and behavioral alterations in these diseases. Investigators have taken advantage of new excitotoxic models that appear to successfully simulate the neurobiological and behavioral characteristics of HD with remarkable homology. Selective excitotoxic compounds allow for a more precise and controlled lesion with which to examine the relationship between striatal damage and behavioral abnormalities. In addition, these models provide new approaches for developing and testing various treatments for HD. Fetal neural tissue transplanted into the excitotoxin-lesioned animal can integrate with the host brain and promote neurochemical and functional recovery. Neural grafting paradigms may be viewed as potential therapies for treating neurodegenerative diseases and as aids in deciphering the regenerative mechanisms of the central nervous system. Further research is necessary, however, to determine the negative and positive effects of neural transplantation. In addition, existing behavioral models need to be refined to allow for better evaluation of the subtle topographic changes in behavior resulting from fetal tissue transplantation.