Imaging Living Central Neurones Using Viral Gene Transfer

Overview

Journal Adv Drug Deliv Rev

Specialty Pharmacology

Date 2004 Nov 3

PMID 15518922

Citations 17

Authors

A G Teschemacher

J F R Paton

S Kasparov

Affiliations

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Abstract

Studies of central neurones and other cellular components of the brain, such as glial and vascular cells, can be greatly advanced by the use of the modern optical techniques such as confocal live cell imaging. Fluorescent proteins have allowed imaging of particular cell types or intracellular elements to be visualised and distinguished from irrelevant background structures. To introduce the genetic information encoding for fluorescent proteins into relevant cellular targets, molecular tools are required. Viral vectors are one of the best ways of gene delivery into differentiated postnatal brain neurones and glia. Current progress in this field allows targeting of various cell types and therefore makes it possible to express a variety of fluorescent constructs in selected subpopulations of neurones, for example. In this review, we will discuss and compare the properties of the most popular viral gene delivery systems and the advantages of different brain cell preparations to illustrate how they can be used for high-resolution live cell confocal imaging in order to study new aspects of central nervous system (CNS) structure and function.

Citing Articles

Expression of Microbial Enzymes in Mammalian Astrocytes to Modulate Lactate Release.

Vaccari Cardoso B, Barrera I, Mosienko V, Gourine A, Kasparov S, Teschemacher A Brain Sci. 2021; 11(8).

PMID: 34439675 PMC: 8394253. DOI: 10.3390/brainsci11081056.

Reducing l-lactate release from hippocampal astrocytes by intracellular oxidation increases novelty induced activity in mice.

Vaccari Cardoso B, Shevelkin A, Terrillion C, Mychko O, Mosienko V, Kasparov S Glia. 2021; 69(5):1241-1250.

PMID: 33400321 PMC: 8576740. DOI: 10.1002/glia.23960.

Ultrastructural Correlates of Enhanced Norepinephrine and Neuropeptide Y Cotransmission in the Spontaneously Hypertensive Rat Brain.

Kourtesis I, Kasparov S, Verkade P, Teschemacher A ASN Neuro. 2015; 7(5).

PMID: 26514659 PMC: 4641560. DOI: 10.1177/1759091415610115.

Lactate-mediated glia-neuronal signalling in the mammalian brain.

Tang F, Lane S, Korsak A, Paton J, Gourine A, Kasparov S Nat Commun. 2014; 5:3284.

PMID: 24518663 PMC: 3926012. DOI: 10.1038/ncomms4284.

Neuronal morphology goes digital: a research hub for cellular and system neuroscience.

Parekh R, Ascoli G Neuron. 2013; 77(6):1017-38.

PMID: 23522039 PMC: 3653619. DOI: 10.1016/j.neuron.2013.03.008.