Optimized selection of specific antibodies against rodent ESR1 proteins and their application for immunohistochemistry and dual immunohistofluorescence with the specific anti-ESR2 antibody PPZ0506.
Mika Soma, Masahiro Morishita, Shimpei Higo, Kenta Sekiya, Hirotaka Ishii
Abstract
Open AccessThe development of immunohistochemical and immunohistofluorescence assays is essential for investigating the tissue and cellular distribution of target proteins. In this study, we identify specific anti-ESR1 antibodies against rodent ESR1 proteins and evaluate their applicability for immunohistochemistry and dual immunohistofluorescence with the specific anti-ESR2 antibody PPZ0506. We assessed the specificity and cross-reactivity of six commercially available anti-ESR1 antibodies (Clones MC-20, C1355, E115, H4624, SP1, and F-10) against mouse and rat ESR1 proteins using immunoblotting and immunocytofluorescence assays. Among them, MC-20, C1355, E115, and H4624 exhibited specific immunoreactivity to mouse and rat ESR1 proteins. These four antibodies were subsequently applied to paraffin-embedded ovarian and uterine sections from mice and rats. Heat-induced antigen retrieval and an appropriate antibody dilution were required to obtain specific and adequate signals. MC-20 and E115 were suitable for immunohistochemical detection of ESR1 proteins, while C1355 was effective for uterine tissue staining. H4624 showed utility only in mouse tissues. Furthermore, rabbit-derived MC-20 and E115 antibodies were successfully employed in dual immunohistofluorescence assays with the mouse monoclonal PPZ0506 antibody, enabling simultaneous visualization of ESR1 and ESR2 proteins in paraffin-embedded ovarian sections. Notably, little cellular co-localization of ESR1 and ESR2 proteins was observed in mouse and rat ovarian sections. These findings provide a validated set of antibodies for ESR1 immunohistochemical detection and demonstrate their compatibility with ESR2 co-labeling, facilitating detailed analysis of estrogen receptor distribution in rodent tissues.