Journal of Histochemistry & Cytochemistry最新文献

Recently, we were able to show that satellite DNA amplification (satDNA-AMP) is present in advanced prostate cancer. A chromosome microarray study provided first evidence that satDNA-AMP appears to be largely independent of centromere-near/pericentric euchromatic copy number alterations. Therefore, it might be carefully suggested that satDNA-AMP could be a new and independent marker for advanced tumor progression.

Tissue preparation for paraffin embedding is a crucial step in histological processes. Standardized methods are required to ensure the accuracy of research and clinical diagnostic results. However, standardization is particularly challenging for long luminal tissues. Conventional methods such as single/serial sections and the Swiss roll, often have drawbacks including the risk of missing or misaligned sections, excess consumption of materials, and high workload. They also require significant expertise and are difficult to standardize. To address these issues, we developed the Histo-LOOP embedding tool-a novel tool designed to standardize, simplify, and improve histological processing. Histo-LOOP is suitable for various tissue types including long tubular tissue, allowing for a complete overview in cross-sectional and longitudinal views. It is also suitable for punch biopsies or small sections, and enables the assessment of multiple punch biopsies or sections within one paraffin block, and in multiple cutting planes, for example, for liver and prostate biopsies. Histo-LOOP does not interfere with the sectioning and staining process and does not cause artifacts.Here, we introduce the novel tool Histo-LOOP and describe preparation techniques for tubular tissue and small tissue samples using this tool, along with examples of their histological evaluation.

SummaryPrevious studies have suggested that chromogranin A (CgA) is a partner molecule of secretogranin III (SgIII). In mouse pituitary corticotroph-derived AtT-20 cells, SgIII plays a role in sorting CgA/hormone aggregates into secretory granules (SGs). Although CgA expression is equivocal, CgB is clearly detectable in the rat pituitary corticotrophs. Therefore, we hypothesized that CgB shares a function with CgA in pituitary corticotrophs. In the binding assays, CgB, similar to CgA, showed binding activity to SgIII under weakly acidic conditions and in the presence of Ca²⁺. Considering the differences in animal species, the different abilities of antibodies, and the conditions of tissue fixation and thin sectioning in immunofluorescence histochemistry, we found that CgA was expressed in a small population (approximately 10%), and its expression intensity was weaker than that of CgB (>98%) in rodent pituitary corticotrophs. In addition, similar to CgA, CgB and SgIII were colocalized in adrenocorticotropic hormone (ACTH) granules. The labeling of CgA and CgB was not completely consistent, and CgB colocalized with SgIII in many granules. These results suggest that there are multiple sorting systems for ACTH granules in pituitary corticotrophs and that the SgIII/CgB complex behaves more dominantly than the SgIII/CgA complex, which has somewhat different properties.

Formalin-fixed paraffin-embedded tissue (FFPET), which is the most widely used pathology archive, usually has low-quality DNA and RNA due to extensive nucleic acid crosslinking. RNA fluorescence in situ hybridization (RNA-FISH) has been increasingly utilized in research and clinical settings to diagnose disease pathology. In this study, the effect of RNA degradation over archival time on RNA-FISH signals in FFPET and fresh frozen tissue (FFT) was systematically assessed. RNAscope multiplex fluorescent assay with the four house-keeping-gene (HKG) probes UBC, PPIB, POLR2A, and HPRT1 was performed on 62 archived breast cancer samples (30 FFPETs and 32 FFTs). As expected, the number of RNAscope signals in FFPETs is lower than in FFTs in an archival duration-dependent fashion. The RNA degradation in FFPETs is most pronounced in high-expressor HKGs, UBC and PPIB, than in low-to-moderate expressors POLR2A and HPRT1 (p<0.0001). Analysis of RNA expression over time showed that PPIB, which has the highest signal, was the most degraded in both adjusted transcript and H-score quantification methods (R² = 0.35 and R² = 0.33, respectively). This proves that although the RNAscope probes are designed to detect fragmented RNA, performing a sample quality check using HKGs is strongly recommended to ensure accurate results.

Glycoprotein 2 (GP2), initially identified as a primary membrane protein of zymogen granules in pancreatic acinar cells, is a marker of intestinal microfold cells (M cells) and involved in bacterial transcytosis in M cells. Recent studies have reported GP2 expression in the pancreas and intestine among various other organs. We aimed to elucidate the expression of GP2 and its glycosylation modifications in human Cowper's glands. We generated an anti-human GP2 monoclonal antibody suitable for formalin-fixed, paraffin-embedded tissue sections. This antibody, designated GP2-71, successfully stained both the plasma membrane and cytoplasm of normal pancreatic acinar cells. Subsequently, we performed GP2-71 immunostaining on normal human Cowper's gland tissues. Our findings revealed that the luminal cell membrane and contents of the Cowper's glands reacted strongly with GP2-71. Moreover, the regions stained with GP2-71 were partially immunostained with the anti-sialyl Lewis x (sLe^x) monoclonal antibody HECA-452. Furthermore, western blot analysis of protein A-purified GP2-immunoglobulin G fusion proteins demonstrated that GP2 was decorated with HECA-452-positive glycans. Collectively, these findings indicate that GP2 is expressed in human Cowper's glands and is potentially decorated with sLe^x-related glycans.

In immune checkpoint inhibitor (ICI)-related colitis, tumor necrosis factor (TNF)-α blockade is recommended if symptoms are not alleviated with corticosteroids. Although TNF has been shown to be associated with steroid resistance, the early prediction of steroid resistance is challenging in clinical practice. Therefore, in the present study, we evaluated the potential of vascular E-selectin expression, which is induced by TNF, to serve as a predictor of steroid resistance in ICI-related colitis. We performed immunohistochemical analysis of 29 cases of ICI-related colitis using the U12-12 monoclonal antibody, which specifically recognizes E-selectin, and examined the association between U12-12 staining and clinical features. The result showed that the proportion of steroid-resistant cases was significantly higher in the U12-12-positive group (8 of 9 cases; 88.9%) than in the U12-12-negative group (1 of 20 cases; 5.0%) (p<0.001). Furthermore, the proportion of steroid-resistant cases was 100% (6 of 6 cases) in patients with U12-12-positive and Common Terminology Criteria for Adverse Events (CTCAE) grade 3 or higher and 0% (0 of 12 cases) in patients with U12-12-negativity and CTCAE grade 1 or 2. Thus, evaluation of vascular E-selectin expression using the U12-12 monoclonal antibody is useful for predicting steroid resistance in ICI-related colitis.

Cancer cell monolayers are commonly used for preclinical drug screening. However, monolayers do not begin to mimic the complexity of the tumor microenvironment, including hypoxia and nutrient gradients within the tumor. To more accurately mimic solid tumors, we developed and drug-tested an anaplastic lymphoma kinase (ALK)-positive (H3122) non-small-cell lung cancer 3D (three-dimensional) culture model using light-activated gelatin methacryloyl hydrogels. We previously demonstrated that the combination of alectinib, an ALK inhibitor, and SHP099, an SHP2 inhibitor, had synergistic efficacy in ALK-positive cell monolayers. We aimed to test this drug combination in our novel ALK-positive 3D cancer model. We first validated the 3D cultures by comparing the distribution of terminal deoxynucleotidyl transferase dUTP nick end labeling (TUNEL)-positive cells in the 3D cultures with sections from time-matched mouse xenografts, finding a comparable percentage of TUNEL-positive cells in the 3D culture and xenograft inner cores at each time point. When we investigated the effect of the combination of alectinib and SHP099 in these novel 3D cultures, we found a comparable cellular response compared with our two-dimensional experiments especially with the drugs in combination. We suggest that 3D cultures be used as preclinical screening platforms to ensure that only the most efficacious drug candidates move on to in vivo testing.

The pancreatic islet vasculature comprises microvascular endothelial cells surrounded by mural cells (pericytes). Both cell types support the islet by providing (1) a conduit for delivery and exchange of nutrients and hormones; (2) paracrine signals and extracellular matrix (ECM) components that support islet development, architecture, and endocrine function; and (3) a barrier against inflammation and immune cell infiltration. In type 2 diabetes, the islet vasculature becomes inflamed, showing loss of endothelial cells, detachment, and/or trans-differentiation of pericytes, vessel dilation, and excessive ECM deposition. While most work to date has focused either on endothelial cells or pericytes in isolation, it is very likely that the interaction between these cell types and disruption of that interaction in diabetes are critically important. In fact, dissociation of pericytes from endothelial cells is an early, key feature of microvascular disease in multiple tissues/disease states. Moreover, in beta-cell replacement therapy, co-transplantation with microvessels versus endothelial cells alone is substantially more effective in improving survival and function of the transplanted cells. Ongoing studies, including characterization of islet vascular cell signatures, will aid in the identification of new therapeutic targets aimed at improving islet function and benefiting people living with all forms of diabetes.

Over a period of almost 30 years, Gomori was one of the most prolific and productive investigators in the emerging field of enzyme histochemistry and was recognized by his peers as a pioneer in developing methods for the histochemical demonstration of hydrolytic enzyme activity, most notably phosphatases, esterases, and lipases. Gomori also made important contributions to diabetes research by developing histological techniques that reliably stained the insulin-secreting B cell of the pancreatic islets of Langerhans. Gomori's aldehyde fuchsin staining method was standard for pathological and physiological studies on islet B cells in relation to diabetes and obesity until insulin antibodies became widely available for immunohistochemical identification of B cells. Gomori was a founding member of The Histochemical Society in 1950. When the HCS established the Journal of Histochemistry and Cytochemistry in 1953, Gomori served as one of the first Associate Editors. He also served as President of The Histochemical Society.

Allergic fungal rhinosinusitis (AFRS) shares similarities with eosinophilic chronic rhinosinusitis (ECRS), both characterized by intractable nasal polyps. The key distinction lies in the presence of fungal infection within the nasal cavity. While ECRS nasal polyps are known for significant infiltration of M2 macrophages and eosinophils, as well as an increase in high endothelial venule (HEV)-like vessels, these features are less commonly reported in AFRS. This study compared clinicopathological findings between AFRS (n=10), ECRS (n=12), and non-ECRS (n=10) patients' nasal polyps using immunohistochemical analysis for CD163 and CD68 to assess the M2/M1 macrophage ratio, and peripheral lymph node addressin (PNAd) and CD34 to evaluate the proportion of HEV-like vessels. AFRS showed a significantly higher number of CD163-positive M2 macrophages and an increased M2/M1 ratio compared with ECRS. However, the percentage of HEV-like vessels and the number of eosinophils infiltrating the nasal polyps were similar in both AFRS and ECRS. The observed increase in M2 macrophages in AFRS nasal polyps is presumed to be induced by fungal infection in the nasal cavity, in comparison with ECRS. These results highlight the distinctive immunological profiles of AFRS and ECRS, emphasizing the role of macrophage polarization in their pathogenesis.