Alzheimer's disease is a synaptic disease.
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Alzheimer's disease (AD) was first described in 1907 by Alois Alzheimer in a 51-year-old woman with the following symptoms: progressive memory impairment; disordered cognitive function; altered behavior, including paranoia and delusion; and decline in language function. The brains of AD subjects are characterized by accumulation of neuritic plaques containing amyloid protein and neurofibrillary tangles, accompanied by loss of certain types of receptors and neurons. Pathological changes begin in the transentorhinal allocortex with degeneration accentuated in the hippocampal formation and entorhinal, frontal, and temporal cortices.
It is known that Alzheimer's disease (AD) is a synaptic disease that involves various neurotransmitter systems, particularly those where synaptic transmission is mediated by acetylcholine or glutamate (Glu). Nevertheless, very little is known about the properties of neurotransmitter receptors of the AD human brain. We have shown previously that cell membranes, carrying neurotransmitter receptors from the human postmortem brain, can be transplanted to frog oocytes, and their receptors will still be functional. Taking advantage of this fact, we have now studied the properties of Glu receptors (GluRs) from the cerebral cortices of AD and non-AD brains and found that oocytes injected with AD membranes acquired GluRs that have essentially the same functional properties as those of oocytes injected with membranes from non-AD brains. However, the amplitudes of the currents elicited by Glu were always smaller in the oocytes injected with membranes from AD brains. Western blot analyses of the same membrane preparations used for the electrophysiological studies showed that AD membranes contained significantly fewer GluR2/3 subunit proteins. Furthermore, the corresponding mRNAs were also diminished in the AD brain. Therefore, the smaller amplitude of membrane currents elicited by Glu in oocytes injected with membranes from an AD brain is a consequence of a reduced number of GluRs in cell membranes transplanted from the AD brain. Thus, using the comparatively simple method of microtransplantation of receptors, it is now possible to determine the properties of neurotransmitter receptors of normal and diseased human brains. That knowledge may help to decipher the etiology of the diseases and also to develop new treatments.
Alzheimer's Donation
Donate Online Now
.
Alzheimer's disease (AD) was first described in 1907 by Alois Alzheimer in a 51-year-old woman with the following symptoms: progressive memory impairment; disordered cognitive function; altered behavior, including paranoia and delusion; and decline in language function. The brains of AD subjects are characterized by accumulation of neuritic plaques containing amyloid protein and neurofibrillary tangles, accompanied by loss of certain types of receptors and neurons. Pathological changes begin in the transentorhinal allocortex with degeneration accentuated in the hippocampal formation and entorhinal, frontal, and temporal cortices.
It is known that Alzheimer's disease (AD) is a synaptic disease that involves various neurotransmitter systems, particularly those where synaptic transmission is mediated by acetylcholine or glutamate (Glu). Nevertheless, very little is known about the properties of neurotransmitter receptors of the AD human brain. We have shown previously that cell membranes, carrying neurotransmitter receptors from the human postmortem brain, can be transplanted to frog oocytes, and their receptors will still be functional. Taking advantage of this fact, we have now studied the properties of Glu receptors (GluRs) from the cerebral cortices of AD and non-AD brains and found that oocytes injected with AD membranes acquired GluRs that have essentially the same functional properties as those of oocytes injected with membranes from non-AD brains. However, the amplitudes of the currents elicited by Glu were always smaller in the oocytes injected with membranes from AD brains. Western blot analyses of the same membrane preparations used for the electrophysiological studies showed that AD membranes contained significantly fewer GluR2/3 subunit proteins. Furthermore, the corresponding mRNAs were also diminished in the AD brain. Therefore, the smaller amplitude of membrane currents elicited by Glu in oocytes injected with membranes from an AD brain is a consequence of a reduced number of GluRs in cell membranes transplanted from the AD brain. Thus, using the comparatively simple method of microtransplantation of receptors, it is now possible to determine the properties of neurotransmitter receptors of normal and diseased human brains. That knowledge may help to decipher the etiology of the diseases and also to develop new treatments.
posted by Valery Yermalitsky at
6:23 AM
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