Groups were dissected and processed as retinal whole-mounts and used for immunohistochemical techniques [38].3. Immunohistochemistry3.1. Staining procedure. The mice retinas were immunostained as described elsewhere [39] with anti-GFAP (GFAP clone GA-5; Sigma, USA) in a 1/150 dilution. Binding sites of the primary antibody were visualized after two days of incubation with the corresponding secondary antibody: the immunoglobulin fraction of goat antimouse antibody conjugated to fluorescein isothiocyanate (FICT) (Sigma, Saint Louis, Missouri, USA) diluted 1/100. A negative control was performed to demonstrate that the secondary antibody reacted only with their respective primary antibody. This control was made by eliminating primary antibody and replacing it with antibody diluent. In addition to identifying the contribution of the endogenous fluorescence to the observed label, a sample of tissue was incubated in all the buffers and detergents used in the experiment but without antibodies. 3.2. Retinal analysis and astrocyte counting. Mice retinal whole-mounts were examined and photographed with a fluorescence microscope (Zeiss, Axioplan 2 Imaging Microscope) equipped with appropriate filter for fluorescence-emission spectra of fluorescein isothiocyanate (Filter set 10, Zeiss). Retinal astrocytes were quantified following a 16985061 masked procedure. Quantification was made in the retinal whole-mount as follows. Each entire retinal whole-mount was analysed using the motorized stage of the microscope to scan the whole preparation along the x-y-z axis. Thus, all subsequent fields analysed were contiguous and were examined systematically to ensure that no portion of the retinal whole-mount would be omitted or duplicated. Photographs of these fields were taken at 206, providing an area of 0.18890 mm2 and GFAP(+) astrocytes were manually counted in each photograph using the manual counting tool of the Metamorph Imaging System. For the study of astrocyte distribution each retinal whole mount was divided into three zones that extended PS 1145 price concentrically from the optic nerve to the periphery as follows: central (zone 1), intermediate (zone 2), and peripheral (zone 3). Equivalent areas 23148522 of the retina were consistently selected for each retinal wholemount, which included zone 1, 2 and 3 (Fig. 1). To analyse the area occupied for each astrocyte, we used a computer-assisted morphometric analysis system (Metamorph Imaging System, version 5; Universal Imaging Corp., Downingtown, PA, USA) in association with an imaging microscope (Axioplan 2; Zeiss, Gottingen, Germany). Ten to twelve photo?micrographs from each animal were taken at random from each retina. The only selection criteria were good tissue quality, good staining, clear visualization of astrocytes, and no GFAP+ Muller ?cells. Photographs were taken at 206, covering an area of 0.18890 mm2. The resulting MedChemExpress ML-240 images were processed first with the detect edges command and then with the auto threshold command of the computer-assisted morphometric analysis system (Metamorph Imaging System, version 5; Universal Imaging Corp). The “detect edges” command isolates and enhances the edges in an image by using a selected edge-detection convolution which detects edges in the image by comparing brightness changes in the neighbouring pixels. The thresholding command defines a range of gray-scale values found on the pixels of objects of interest, differentiating them from other parts of the image based on the images’ gray scale.Groups were dissected and processed as retinal whole-mounts and used for immunohistochemical techniques [38].3. Immunohistochemistry3.1. Staining procedure. The mice retinas were immunostained as described elsewhere [39] with anti-GFAP (GFAP clone GA-5; Sigma, USA) in a 1/150 dilution. Binding sites of the primary antibody were visualized after two days of incubation with the corresponding secondary antibody: the immunoglobulin fraction of goat antimouse antibody conjugated to fluorescein isothiocyanate (FICT) (Sigma, Saint Louis, Missouri, USA) diluted 1/100. A negative control was performed to demonstrate that the secondary antibody reacted only with their respective primary antibody. This control was made by eliminating primary antibody and replacing it with antibody diluent. In addition to identifying the contribution of the endogenous fluorescence to the observed label, a sample of tissue was incubated in all the buffers and detergents used in the experiment but without antibodies. 3.2. Retinal analysis and astrocyte counting. Mice retinal whole-mounts were examined and photographed with a fluorescence microscope (Zeiss, Axioplan 2 Imaging Microscope) equipped with appropriate filter for fluorescence-emission spectra of fluorescein isothiocyanate (Filter set 10, Zeiss). Retinal astrocytes were quantified following a 16985061 masked procedure. Quantification was made in the retinal whole-mount as follows. Each entire retinal whole-mount was analysed using the motorized stage of the microscope to scan the whole preparation along the x-y-z axis. Thus, all subsequent fields analysed were contiguous and were examined systematically to ensure that no portion of the retinal whole-mount would be omitted or duplicated. Photographs of these fields were taken at 206, providing an area of 0.18890 mm2 and GFAP(+) astrocytes were manually counted in each photograph using the manual counting tool of the Metamorph Imaging System. For the study of astrocyte distribution each retinal whole mount was divided into three zones that extended concentrically from the optic nerve to the periphery as follows: central (zone 1), intermediate (zone 2), and peripheral (zone 3). Equivalent areas 23148522 of the retina were consistently selected for each retinal wholemount, which included zone 1, 2 and 3 (Fig. 1). To analyse the area occupied for each astrocyte, we used a computer-assisted morphometric analysis system (Metamorph Imaging System, version 5; Universal Imaging Corp., Downingtown, PA, USA) in association with an imaging microscope (Axioplan 2; Zeiss, Gottingen, Germany). Ten to twelve photo?micrographs from each animal were taken at random from each retina. The only selection criteria were good tissue quality, good staining, clear visualization of astrocytes, and no GFAP+ Muller ?cells. Photographs were taken at 206, covering an area of 0.18890 mm2. The resulting images were processed first with the detect edges command and then with the auto threshold command of the computer-assisted morphometric analysis system (Metamorph Imaging System, version 5; Universal Imaging Corp). The “detect edges” command isolates and enhances the edges in an image by using a selected edge-detection convolution which detects edges in the image by comparing brightness changes in the neighbouring pixels. The thresholding command defines a range of gray-scale values found on the pixels of objects of interest, differentiating them from other parts of the image based on the images’ gray scale.