Determining factors for optimal neuronal and glial Golgi-Cox staining.

Narayanan, Sareesh Naduvil; Bairy, Laxminarayana Kurady; Srinivasamurthy, Suresh Kumar

Golgi staining allows for the analysis of neuronal arborisations and connections and is considered a powerful tool in basic and clinical neuroscience. The fundamental rules for improving neuronal staining using the Golgi-Cox method are not fully understood; both intrinsic and extrinsic factors may control the staining process. Therefore, various conditions were tested to improve the Golgi-Cox protocol for vibratome-cut rat brain sections. Optimal staining of cortical neurons was achieved after 72 h of impregnation. Well-stained neurons in both cortical and subcortical structures were observed after 96 h of impregnation. The dendritic arborisation pattern of cortical neurons derived from the 72-h impregnation group was comparable to those of the 96 and 168-h impregnation groups. The entire brain was stained well when the pH of the Golgi-Cox solution was 6.5 and that of the sodium carbonate solution was 11.2. Lack of brain perfusion or perfusion with 0.9% NaCl did not influence optimal neuronal staining. Perfusion with 37% formaldehyde, followed by impregnation, only resulted in glial staining, but perfusion with 4% formaldehyde facilitated both glial and neuronal staining. Whole brains required longer impregnation times for better staining. Although every factor had a role in determining optimal neuronal staining, impregnation time and the pH of staining solutions were key factors among them. This modified Golgi-Cox protocol provides a simple and economical procedure to stain both neurons and glia separately.

STAINS & staining (Microscopy); SODIUM carbonate; CLINICAL neurosciences; NEURONS; FORMALDEHYDE

Histochemistry & Cell Biology, 2020, Vol 154, Issue 4, p431

0948-6143

Academic Journal

10.1007/s00418-020-01891-9