With the aim of sharing information about the technical aspects of immunohistochemistry
(IHC) and facilitating the selection of suitable antibodies for histopathological
examination, this technical report describes the results of a questionnaire distributed
during the period of 2018 to 2019 among members of the Conference on Experimental Animal
Histopathology. Additionally, it describes the immunological properties and supplier
details (clone, supplier, catalog number, species reactivity, etc.) as well as the IHC
staining conditions (fixing solution, fixing time, embedding, antigen retrieval method,
antibody dilution, incubation time, incubation temperature, positive control tissue,
blocking condition, secondary antibody information, etc.) for a total of 509 primary
antibodies (comprising 220 different types). These survey results were an update on the
contents reported by CEAH in 2017.
As a cause of proteinuria in diabetic nephropathy, a decrease in anionic charge on the glomerular basement membrane (GBM) is considered to be related to protein leakage. However, the constancy of the anionic charge has been reported in several types of nephropathy. To elucidate the relation between glomerular protein leakage and anionic charge, we examined the distribution of anionic sites on the GBM and podocytes in diabetic rats induced by a single intravenous injection of 60 mg/kg of streptozotocin (STZ). Five months after the treatment with STZ, urinalysis for glucose and protein levels was conducted, and the kidneys were examined using electron microscopic cytochemistry for the assessment of anionic charge with two cationic probes. The distributions of anionic sites on the GBM demonstrated by two kinds of cationic markers in the diabetic rats were similar in density to those seen in the control animals. The distributions of anionic sites on the foot processes and cell membrane of podocytes were regular and also similar in density to that of the control group. From these results, we consider that the charge barrier of the GBM and podocytes is irrelevant to the protein leakage in diabetic rats.
Several cationic-amphiphilic drugs such as chloroquine and amiodarone are known to induce phospholipidosis in the cornea by systemic administration. However, the characteristics of ophthalmological and pathological changes when phospholipidosis-inducing drugs are topically applied have not been well studied. This study was conducted to investigate the characteristics of corneal changes caused by topical application of chloroquine and amiodarone to Japanese white rabbits. The changes were evaluated by ophthalmological, histopathological, and ultrastructural examinations. An in vivo confocal microscopy was also applied to the chloroquine-treated corneas. In both chloroquine- and amiodarone-treated corneas, diffuse cloudiness was observed by slit-lamp biomicroscopy, and its transparency increased with duration of dosing. Confocal microscopy showed punctate dots in the corneal epithelium. Histopathologically, cytoplasmic vacuolation was found in the corneal epithelium and keratocytes in both chloroquine- and amiodarone-treated eyes. Furthermore, foamy cytoplasm of the corneal endothelium was observed in the chloroquine-treated eyes. Ultrastructural examination showed multi-lamellar inclusion bodies or membrane-like debris in the lysosome-like vacuoles in the cytoplasm of corneal cells, which is a characteristic of the lesions of phospholipidosis. These changes disappeared after a withdrawal period. Continuous dosing of chloroquine resulted in corneal erosion and focal corneal opacity as shown by gross observation and slit-lamp biomicroscopy. Confocal microscopy could detect the corneal changes prior to the appearance of these ophthalmological changes. The present study showed that phospholipidosis caused by ocular administration of chloroquine and amiodarone first induces reversible diffuse corneal cloudiness. Confocal microscopy is a useful method for monitoring induction of corneal phospholipidosis.
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