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Literature DB >> 14749517

Microtransplantation of functional receptors and channels from the Alzheimer's brain to frog oocytes.

R Miledi¹, Z Dueñas, A Martinez-Torres, C H Kawas, F Eusebi.

Abstract

About a decade ago, cell membranes from the electric organ of Torpedo and from the rat brain were transplanted to frog oocytes, which thus acquired functional Torpedo and rat neurotransmitter receptors. Nevertheless, the great potential that this method has for studying human diseases has remained virtually untapped. Here, we show that cell membranes from the postmortem brains of humans that suffered Alzheimer's disease can be microtransplanted to the plasma membrane of Xenopus oocytes. We show also that these postmortem membranes carry neurotransmitter receptors and voltage-operated channels that are still functional, even after they have been kept frozen for many years. This method provides a new and powerful approach to study directly the functional characteristics and structure of receptors, channels, and other membrane proteins of the Alzheimer's brain. This knowledge may help in understanding the basis of Alzheimer's disease and also help in developing new treatments.

Entities: Disease Species

Mesh：

Substances：

Year: 2004 PMID： 14749517 PMCID： PMC341849 DOI： 10.1073/pnas.0308224100

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

30 in total

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16 in total

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Journal: Proc Natl Acad Sci U S A Date: 2007-02-14 Impact factor: 11.205

4. Loss of functional GABA(A) receptors in the Alzheimer diseased brain.

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Journal: Proc Natl Acad Sci U S A Date: 2012-06-12 Impact factor: 11.205

5. Microtransplantation of neurotransmitter receptors from postmortem autistic brains to Xenopus oocytes.

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Review 6. Using Xenopus oocytes in neurological disease drug discovery.

Authors: Steven L Zeng; Leland C Sudlow; Mikhail Y Berezin
Journal: Expert Opin Drug Discov Date: 2019-11-01 Impact factor: 6.098

7. Reconstitution of synaptic Ion channels from rodent and human brain in Xenopus oocytes: a biochemical and electrophysiological characterization.

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Journal: J Neurochem Date: 2016-06-13 Impact factor: 5.372