Immunoreactive bands were visualized using a chemiluminescence re

Immunoreactive bands were visualized using a chemiluminescence reagent (Amersham Biosciences, Buckinghamshire, UK), followed by autoradiography. β-actin was used as the loading control. Densitometry of various analyte proteins and their respective loading controls from the same blot was performed using Image J 1.43 (NIH) software. Relative optical density was calculated by

dividing the densitometry of analyte(s) protein with the respective loading control. The levels of BPDE-DNA adducts were detected by immunohistochemical staining for BPDE-DNA adducts in formalin-fixed, paraffin embedded 5 μm tissue sections as described previously [14]. Sections were incubated with anti-BPDE antibody (1:30

dilution). Detection was done using Vectastain ABC kit (Vector Laboratories, Burlingame, CA, USA). Diaminobenzidine learn more (DAB) was employed as the chromogenic substrate, and slides were counterstained with Mayer’s haematoxylin. Images were captured with Zeiss Microscope (Imager Z1) to which an Axiocam MRc5 digital C59 wnt nmr camera was attached. Quantitative analysis of the images (magnification X 400) was performed by IHC profiler [15], which is an open source plug-in for the quantitative evaluation and automated scoring of immunohistochemistry images of tissue samples. This modified digital image analysis is based on protocols adopted earlier [16]. IHC photomicrographs were used for developing semi-automated analysis protocol, namely IHC profiler [15]. As a first step, a color de-convolution plug-in was used to un-mix the pure DAB and haematoxylin stained areas that left a complimentary image. The pixel intensities of separated DAB images range from 0 to 255. Value 0 represents the darkest shade whereas 255 represents the lightest shade of the DAB brown color in the image. To select the DAB-stained (brown) nuclei, the threshold feature of the Image J 1.43 (NIH) software was used. Further to assign an automated percentage of pure DAB staining patterns in the nucleus, a macro was developed and plugged in the Image J 1.43 (NIH) software to obtain an automated counting

of the pixel wise percentage contribution of high, medium and low positive pixels/intensity in an image i.e. the number of pixels of a specific intensity value PJ34 HCl vs. their respective intensity zone. For measurement of BPDE-DNA adducts [similar areas of tissue sections (mm2) and number of cells (∼800 cells/section/animal)], total intensity (%) [of nuclei containing percentage of high, medium and low intensity] was analyzed within different treatment groups. However, apoptosis was measured in terms of total apoptotic nuclei intensity as well as percentage of apoptotic positive and negative cells in similar areas of tissue sections (mm2) and number of cells (∼800 cells/section/animal) in different treatment groups.

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