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W2002780971 abstract "3t 31 days of age, Long-Evans female rats sustained aspirative lesions of the septohippocampal pathways and, 14 days later, received intrahippocampal suspension grafts prepared from the region including the medial septum and the diagonal band of Broca (Group S, n = 11), from the region including the mesencephalic raphe (Group R, n = 11) or from both regions together (Group S + R, n = 11). Sham-operated (Group Sham, n = 9) and lesion-only (Group Les, n = 11) rats served as non-grafted controls. Seven Sham, 7 Les and 8 rats from each transplant group were tested for home cage activity (6 months after grafting) and radial maze performance (between 7.5 and 8.5 months post-grafting). One month after completion of behavioral testing, the dorsal hippocampi of these rats were prepared for measuring choline acetyltransferase (ChAT) activity and high affinity synaptosomal uptake of both [3H]choline and [3H]serotonin. The remaining rats were used for histological verifications on brain sections stained for acetylcholinesterase (AChE). The lesions increased locomotor activitu, impaired radial maze learning and, in the dorsal hippocampus, reduced AChE positive staining, decreased ChAT activity (−73%) as well as high affinity uptake of both choline (−81%) and serotonin (−82%). Neither type of transplant produced any significant behavioral recovery. However, septal transplants increased hippocampal AChE positivity, restored ChAT activity and enhanced choline uptake to 116% and 70% of the values found in sham-operated rats, respectively; they had no significant effect on uptake of serotonin. Transplants from the raphe region had weak affects on hippocampal AChE positivity, increased both the ChAT activity and the choline uptake to 70% ad 38% of sham-operated rats, respectively, and produced an (over)compensation of the serotonin uptake which reached 324% of the values found in sham-operated rats. The co-transplantation of both regions resulted in restoration of ChAT activity (113% of sham-operated rats values), choline uptake (83% of sham-operated rats) and serotonin uptake (129% of sham-operated rats). Our neurochemical data show that after extensive denervation of the hippocampus, intrahippocampal grafts of fetal neurons may foster a neurotransmitter-specific recovery which depends upon the anatomical origin of the grafted cells; a graft rich in serotonergic neurons overcompensates the serotonergic deficit, a graft irich in cholinergic neurons attenuates the cholinergic deficit, whereas a mixture of both types of grafts produces recovery from both types of deficits. Thereby, both the feasibility and the interest of the co-grafting technique are confirmed. However, our behavioral data also suggest that separate or combined attenuation of the lesion-induced cholinergic and serotonergic deficits in the dorsal hippocampus does not seem to be a sufficient condition to induce attenuation of the lesion-induced behavioral deficits (hyperactivity, impaired memory)." @default.
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W2002780971 date "1992-07-01" @default.
W2002780971 modified "2023-09-25" @default.
W2002780971 title "Effects of septal and/or raphe cell suspension grafts on hippocampal choline acetyltransferase activity, high affinity synaptosomal uptake of choline and serotonin, and behavior in rats with extensive septohippocampal lesions" @default.
W2002780971 cites W1420764807 @default.
W2002780971 cites W1548934986 @default.
W2002780971 cites W1703876792 @default.
W2002780971 cites W1775749144 @default.
W2002780971 cites W1963480747 @default.
W2002780971 cites W1963759364 @default.
W2002780971 cites W1970583029 @default.
W2002780971 cites W1971685143 @default.
W2002780971 cites W1973179202 @default.
W2002780971 cites W1980155126 @default.
W2002780971 cites W1985482256 @default.
W2002780971 cites W1986022817 @default.
W2002780971 cites W1989314580 @default.
W2002780971 cites W1992437071 @default.
W2002780971 cites W1995104674 @default.
W2002780971 cites W1997622387 @default.
W2002780971 cites W2003162040 @default.
W2002780971 cites W2005422992 @default.
W2002780971 cites W2011835662 @default.
W2002780971 cites W2012815518 @default.
W2002780971 cites W2013410119 @default.
W2002780971 cites W2015136430 @default.
W2002780971 cites W2018864173 @default.
W2002780971 cites W2020280842 @default.
W2002780971 cites W2025093160 @default.
W2002780971 cites W2025226461 @default.
W2002780971 cites W2030878417 @default.
W2002780971 cites W2031315936 @default.
W2002780971 cites W2032131963 @default.
W2002780971 cites W2033319161 @default.
W2002780971 cites W2035117085 @default.
W2002780971 cites W2037001477 @default.
W2002780971 cites W2041601285 @default.
W2002780971 cites W2045683730 @default.
W2002780971 cites W2047076535 @default.
W2002780971 cites W2047193257 @default.
W2002780971 cites W2048561863 @default.
W2002780971 cites W2050342160 @default.
W2002780971 cites W2050976425 @default.
W2002780971 cites W2060641585 @default.
W2002780971 cites W2064618087 @default.
W2002780971 cites W2066679535 @default.
W2002780971 cites W2069697076 @default.
W2002780971 cites W2070459959 @default.
W2002780971 cites W2071991515 @default.
W2002780971 cites W2074385293 @default.
W2002780971 cites W2077181564 @default.
W2002780971 cites W2085164109 @default.
W2002780971 cites W2088960814 @default.
W2002780971 cites W2090503995 @default.
W2002780971 cites W2090511080 @default.
W2002780971 cites W2095873344 @default.
W2002780971 cites W2096398482 @default.
W2002780971 cites W2103692957 @default.
W2002780971 cites W2104176134 @default.
W2002780971 cites W2115941947 @default.
W2002780971 cites W2153180104 @default.
W2002780971 cites W2163815564 @default.
W2002780971 cites W2214715396 @default.
W2002780971 cites W262506238 @default.
W2002780971 cites W270502564 @default.
W2002780971 cites W563232987 @default.
W2002780971 cites W578476645 @default.
W2002780971 cites W578620894 @default.
W2002780971 doi "https://doi.org/10.1016/0006-8993(92)91213-x" @default.
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