Reliable and durable Golgi staining of brain tissue from human autopsies and experimental animals

Reliable and durable Golgi staining of brain tissue from human autopsies and experimental animals

•A reliable procedure for Golgi staining of cerebral cortical neurons is described.•Impregnated cells are uniformly distributed, and all depths of the processed tissue block are usable for observational and quantitative morphometric analysis.•All stained cells appear to be completely impregnated.•St...

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Bibliographic Details
Published in:Journal of neuroscience methods Vol. 230; pp. 20 - 29
Main Authors: Rosoklija, Gorazd B., Petrushevski, Vladimir M., Stankov, Aleksandar, Dika, Ani, Jakovski, Zlatko, Pavlovski, Goran, Davcheva, Natasha, Lipkin, Richard, Schnieder, Tatiana, Scobie, Kimberley, Duma, Aleksej, Dwork, Andrew J.
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 15-06-2014
Subjects:
Adolescent
Adult
Aged
Aged, 80 and over
Animals
Autopsy
Brain - cytology
Dendrites
Dendritic Spines
Experimental animals
Frontal Lobe - cytology
Golgi-Cox
Golgi-Kopsch
Hippocampus - cytology
Human
Humans
Mice
Middle Aged
Neurons - cytology
Rapid Golgi
Rats
Reproducibility of Results
Staining and Labeling - methods
Tissue Fixation - methods
Young Adult
Human
Golgi-Kopsch
Dendritic spines
Rapid Golgi
Autopsy
Dendrites
Golgi-Cox
Experimental animals
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Description
Summary:•A reliable procedure for Golgi staining of cerebral cortical neurons is described.•Impregnated cells are uniformly distributed, and all depths of the processed tissue block are usable for observational and quantitative morphometric analysis.•All stained cells appear to be completely impregnated.•Staining lasts at least 8 years and is apparently permanent.•The procedure must start with unfixed tissue and requires approximately 4 months for completion. Golgi stains are notoriously capricious, particularly when applied to human brain. The well-known difficulties, which include complete failure of impregnation, patchy staining, unstable staining, and extensive crystalline deposits in superficial sections, have discouraged many from attempting to use these techniques. A reliable method that produces uniform impregnation in tissue from human autopsies and experimental animals is needed. The method described, “NeoGolgi”, modifies previous Golgi-Cox protocols (Glaser and Van der Loos, 1981). Changes include: much longer time (>10 weeks) in Golgi solution, agitation on a slowly rocking platform, more gradual infiltration with Parlodion, more thorough removal of excess staining solution during embedding, and shorter exposure to ammonia after infiltration. The procedure has successfully stained over 220 consecutive frontal or hippocampal blocks from more than 175 consecutive human autopsy cases. Dendritic spines are easily recognized, and background is clear, allowing examination of very thick (200μm) sections. Stained neurons are evenly distributed within cortical regions. The stain is stable for at least eight years. Most importantly, all stained neurons are apparently well-impregnated, eliminating ambiguity between pathology and poor impregnation that is inherent to other methods. Most methods of Golgi staining are poorly predictable. They often fail completely, staining is patchy, and abnormal morphology is often indistinguishable from poor impregnation. “NeoGolgi” overcomes these problems. Starting with unfixed tissue, it is possible to obtain Golgi staining of predictably high quality in brains from human autopsies and experimental animals.
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ISSN:0165-0270
1872-678X
DOI:10.1016/j.jneumeth.2014.04.006