Abstract

Cerebral cortical injury due to vascular insufficiency at birth or at maturity is a major cause of chronic disability in the U.S. While afflicted individuals have had little hope of recovery from permanent symptoms, numerous recent experiments involving neuronal transplants suggest the use of fetal grafts in nervous system repair. Our recent findings demonstrate that fetal cortical tissue will survive, grow and form host-transplant interconnections when grafted into lesion cavities made in the newborn neocortex. In order to pursue these results, the proposed experiments represent a multidisciplinary study of neuronal transplants in the reconstruction of the damaged cerebral cortex. Anatomical studies using antero- and retrograde tracing techniques are proposed to further examine the projections of such grafts and to study possible transplant-host interconnections using adult recipients. Since unilateral cortical lesions in the newborn will induce remodelling of the opposite hemisphere, the possible effects of transplants on host plasticity will also be examined. Retrograde tracing studies have demonstrated host thalamo- transplant connections as well as transplant projections to the host spinal cord. Experiments are proposed to examine single-unit responses within grafts to peripheral sensory and thalamic electrical stimulation as well as body movements or heart rate changes evoked by transplant microstimulation. Transplant afferents from cholinergic, noradrenergic and serotonergic cell groups have also been described using retrograde tracing techniques. Immunocytochemical studies are proposed to determine more precisely the origin and distribution of these transplant afferents. Biochemical analyses using HPLC methods are proposed to quantify monoaminergic levels within the grafts. Using several transplant paradigms, further biochemical studies are proposed in search of correlations between transmitter levels and transplant growth. Recent studies demonstrated the use of fetal cortical grafts to promote recovery from cortical lesion-induced deficits on learning tasks. Experiments are proposed to examine the effects of transplants on motor deficits associated with cortical lesions.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS013230-15
Application #
3395132
Study Section
Biopsychology Study Section (BPO)
Project Start
1977-09-01
Project End
1992-11-30
Budget Start
1990-12-01
Budget End
1991-11-30
Support Year
15
Fiscal Year
1991
Total Cost
Indirect Cost

  Institution

Name
Loyola University Chicago
Department
Type
Schools of Medicine
DUNS #
791277940
City
Maywood
State
IL
Country
United States
Zip Code
60153

  Publications

Pedersen, E B; McNulty, J A; Castro, A J et al. (1997) Enriched immune-environment of blood-brain barrier deficient areas of normal adult rats. J Neuroimmunol 76:117-31
Elsayed, M H; Hogan, T P; Shaw, P L et al. (1996) Use of fetal cortical grafts in hypoxic-ischemic brain injury in neonatal rats. Exp Neurol 137:127-41
Tillotson, G L; Schulz, M K; Hogan, T P et al. (1995) Analysis of neocortical grafts placed into focal ischemic lesions in adult rats. Neurosci Lett 201:69-72
Schulz, M K; McNulty, J A; Handa, R J et al. (1995) Fetal neocortical transplants grafted into neocortical lesion cavities made in newborn rats: an analysis of transplant integration with the host brain. Cell Transplant 4:123-32
Schulz, M K; Handa, R J; Tillotson, G L et al. (1994) Expression of c-fos mRNA and c-fos protein in neocortical transplants placed into excitotoxin-induced lesions in adult rats. Exp Neurol 129:321-9
Schulz, M K; Hogan, T P; Castro, A J (1993) Connectivity of fetal neocortical block transplants in the excitotoxically ablated cortex of adult rats. Exp Brain Res 96:480-6
Pedersen, E B; Fox, L M; Castro, A J et al. (1993) Immunocytochemical and electron-microscopic characterization of macrophage/microglia cells and expression of class II major histocompatibility complex in the pineal gland of the rat. Cell Tissue Res 272:257-65
McNulty, J A; Fox, L M; Shaw, P L et al. (1991) Pineal gland transplants into the cerebral hemisphere of newborn rats: a study of the blood brain barrier and innervation. J Neural Transplant Plast 2:113-24
Reinoso, B S; Castro, A J (1989) A study of corticospinal remodelling using retrograde fluorescent tracers in rats. Exp Brain Res 74:387-94
Swenson, R S; Sievert, C F; Terreberry, R R et al. (1989) Organization of cerebral cortico-olivary projections in the rat. Neurosci Res 7:43-54

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