Huntington's disease (HD) presently lacks any effective therapy. Our goal is to evaluate neuronal replacement as a novel treatment strategy for HD and to provide relevant information for understanding the pathophysiology of HD. Previous experiments involved animals with unilateral caudate- putamen lesions. We will now realistically test for beneficial effects in a clinically relevant animal model by transplanting xenogeneic neurons bilaterally into the neuron-depleted posterior putamen, a region that is bilaterally and severely involved in the HD motor-disorder. Neuronal loss remarkably similar to HD is produced in macaca mulata by MRI-guided bilateral quinolinate (200 mM) infusion into posterior putamen. A quantifiable movement disorder analogous to HD occurs after dopamine- agonist drug stimulation (apomorphine 0.5 mg/kg i.m., 40 min. test). We will determine how porcine striatal neuroblasts repair this putaminal neurocircuitry and consistently reduce the movement disorder: First, during behavioral recovery, we obtain specific and complementary in vivo data about neuronal function through MRI techniques, scanning of striatal neurons (dopamine D1; SCH 39166 binding) and 2-deoxyglucose utilization using PET. Second, post-mortem studies using species-specific markers for neuronal circuitry and neurochemical analysis of neurotransmitter changes will demonstrate how transplanted cells integrate with the host brain. Third, by immunologically rejecting functional transplants, we will test host dependency on transplanted neurons. Our ongoing work shows that implanted embryonic porcine striatal neurons can compensate in part for lesion-induced neurological deficits in a primate model of HD. The novel work proposed may provide a rational basis for clinical trials in HD.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
2R01NS030064-04A1
Application #
2268152
Study Section
Neurology B Subcommittee 2 (NEUB)
Project Start
1992-01-01
Project End
1998-06-30
Budget Start
1995-07-01
Budget End
1996-06-30
Support Year
4
Fiscal Year
1995
Total Cost
Indirect Cost
Name
Mc Lean Hospital (Belmont, MA)
Department
Type
DUNS #
City
Belmont
State
MA
Country
United States
Zip Code
02478
Seo, Hyemyung; Kim, Woori; Isacson, Ole (2008) Compensatory changes in the ubiquitin-proteasome system, brain-derived neurotrophic factor and mitochondrial complex II/III in YAC72 and R6/2 transgenic mice partially model Huntington's disease patients. Hum Mol Genet 17:3144-53
Seo, Hyemyung; Sonntag, Kai-Christian; Isacson, Ole (2004) Generalized brain and skin proteasome inhibition in Huntington's disease. Ann Neurol 56:319-28
Isacson, Ole; Bjorklund, Lars M; Schumacher, James M (2003) Toward full restoration of synaptic and terminal function of the dopaminergic system in Parkinson's disease by stem cells. Ann Neurol 53 Suppl 3:S135-46; discussion S146-8
Cicchetti, F; Fodor, W; Deacon, T W et al. (2003) Immune parameters relevant to neural xenograft survival in the primate brain. Xenotransplantation 10:41-9
Bjorklund, Lars M; Isacson, Ole (2002) Regulation of dopamine cell type and transmitter function in fetal and stem cell transplantation for Parkinson's disease. Prog Brain Res 138:411-20
Cicchetti, F; Costantini, L; Belizaire, R et al. (2002) Combined inhibition of apoptosis and complement improves neural graft survival of embryonic rat and porcine mesencephalon in the rat brain. Exp Neurol 177:376-84
Haque, N S; Isacson, O (2000) Neurotrophic factors NGF and FGF-2 alter levels of huntingtin (IT15) in striatal neuronal cell cultures. Cell Transplant 9:623-7
Freeman, T B; Cicchetti, F; Hauser, R A et al. (2000) Transplanted fetal striatum in Huntington's disease: phenotypic development and lack of pathology. Proc Natl Acad Sci U S A 97:13877-82
Haque, N; Isacson, O (1997) Antisense gene therapy for neurodegenerative disease? Exp Neurol 144:139-46
Isacson, O; Deacon, T (1997) Neural transplantation studies reveal the brain's capacity for continuous reconstruction. Trends Neurosci 20:477-82

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