NEOCORTICAL NEURONAL SUBPOPULATIONS LABELED BY A MONOCLONAL-ANTIBODY TO CALBINDIN EXHIBIT DIFFERENTIAL VULNERABILITY IN ALZHEIMERS-DISEASE

被引:178
作者
HOF, PR [1 ]
MORRISON, JH [1 ]
机构
[1] CUNY MT SINAI SCH MED, DEPT GERIATR & ADULT DEV, NEW YORK, NY 10029 USA
关键词
D O I
10.1016/0014-4886(91)90096-U
中图分类号
Q189 [神经科学];
学科分类号
071006 ;
摘要
Numerous studies have demonstrated that specific neuronal subtypes display a differential vulnerability to the pathological process in Alzheimer's disease. Large pyramidal neurons are likely to be highly vulnerable, whereas smaller neurons are more resistant to pathology. Using a monoclonal antibody to the calcium-binding protein calbindin, we observed in the human prefrontal cortex distinct populations of labeled cells. First, a subset of heavily stained interneurons was located in layers II and superficial III and in layers V-VI. Second, a subpopulation of pyramidal neurons in the mid and deep parts of layer III displayed a less intense, punctate staining pattern. The interneurons in the superficial layers were unaffected in the Alzheimer's disease cases. Interestingly, in layers V-VI, there was significant cell loss in the interneuron population, but only in the Alzheimer's disease cases with high neurofibrillary tangle densities. The calbindin-immunoreactive pyramidal neurons of layer III were dramatically affected in the disease. Moreover, there was a strong correlation between the extent of the loss of these cells and neurofibrillary tangle counts. These data suggest that calbindin is present in multiple neuronal subpopulations that exhibit a differential vulnerability in Alzheimer's disease and support the hypothesis that the degenerative process involves specific neuronal subsets with particular anatomical and molecular profiles. © 1991.
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页码:293 / 301
页数:9
相关论文
共 57 条
[1]   HIPPOCAMPAL CALCIUM-BINDING PROTEIN DURING COMMISSURAL KINDLING-INDUCED EPILEPTOGENESIS - PROGRESSIVE DECLINE AND EFFECTS OF ANTICONVULSANTS [J].
BAIMBRIDGE, KG ;
MILLER, JJ .
BRAIN RESEARCH, 1984, 324 (01) :85-90
[2]   CALCIUM-BINDING PROTEIN DISTRIBUTION IN THE RAT-BRAIN [J].
BAIMBRIDGE, KG ;
MILLER, JJ ;
PARKES, CO .
BRAIN RESEARCH, 1982, 239 (02) :519-525
[3]   IMMUNOHISTOCHEMICAL LOCALIZATION OF CALCIUM-BINDING PROTEIN IN THE CEREBELLUM, HIPPOCAMPAL-FORMATION AND OLFACTORY-BULB OF THE RAT [J].
BAIMBRIDGE, KG ;
MILLER, JJ .
BRAIN RESEARCH, 1982, 245 (02) :223-229
[4]   ASSOCIATION BETWEEN QUANTITATIVE MEASURES OF DEMENTIA AND OF SENILE CHANGE IN CEREBRAL GREY MATTER OF ELDERLY SUBJECTS [J].
BLESSED, G ;
TOMLINSON, BE ;
ROTH, M .
BRITISH JOURNAL OF PSYCHIATRY, 1968, 114 (512) :797-+
[5]  
BRAAK H, 1986, PROG BRAIN RES, V70, P185
[6]   MONOCLONAL-ANTIBODY TO NEUROFILAMENT PROTEIN (SMI-32) LABELS A SUBPOPULATION OF PYRAMIDAL NEURONS IN THE HUMAN AND MONKEY NEOCORTEX [J].
CAMPBELL, MJ ;
MORRISON, JH .
JOURNAL OF COMPARATIVE NEUROLOGY, 1989, 282 (02) :191-205
[7]  
CAMPBELL MJ, 1991, IN PRESS BRAIN RES
[8]   NUCLEUS BASALIS MEYNERT NEURONS CONTAIN THE VITAMIN-D-INDUCED CALCIUM-BINDING PROTEIN (CALBINDIN-D 28K) [J].
CELIO, MR ;
NORMAN, AW .
ANATOMY AND EMBRYOLOGY, 1985, 173 (02) :143-148
[9]   PARVALBUMIN IN MOST GAMMA-AMINOBUTYRIC-ACID CONTAINING NEURONS OF THE RAT CEREBRAL-CORTEX [J].
CELIO, MR .
SCIENCE, 1986, 231 (4741) :995-997
[10]   CALBINDIN-D-28K AND PARVALBUMIN IN THE RAT NERVOUS-SYSTEM [J].
CELIO, MR .
NEUROSCIENCE, 1990, 35 (02) :375-475