Combined cSLO-OCT imaging as a tool in preclinical ocular toxicity testing: A comparison to standard in-vivo and pathology methods.

INTRODUCTION: Confocal scanning laser ophthalmoscopy and optical coherence tomography (cSLO-OCT) became available for human and animal ophthalmic examinations in recent years. The purpose of this study was to evaluate lesion detection and localization with cSLO-OCT imaging in an experimental outer retinal toxicity model and to compare cSLO-OCT to standard examination methods (indirect ophthalmoscopy (IO), fundus photography (FP) and central section histopathology). METHODS: A test compound was orally administered to albino rats (n = 4) for four weeks (part A) and to albino (n = 2) and pigmented (n = 2) rats for eight weeks (part B). Control animals received vehicle only. Retinal changes were documented using cSLO-OCT, IO, FP, angiography and histopathology. Retinal thicknesses were compared between groups using a mixed effects model. RESULTS: All compound-treated animals developed progressive multifocal hyperreflective spot changes mostly confined to the retinal pigment epithelium. In study parts A and B, cSLO identified fundus lesions earlier than IO/FP in albino rats. In study part B, cSLO quantified fundus lesions more accurately than IO/FP in albino rats but no difference was seen in pigmented rats. Central section histopathology revealed no abnormalities in three out of four compound-treated animals in part B. Altogether, without cSLO-OCT, present fundus changes would have remained undetected in one of four compound-treated animals in both parts A and B. DISCUSSION: Integration of combined cSLO-OCT imaging into toxicology study design can improve toxicity study readouts and facilitate longitudinal examination of single animals at multiple time points, leading to a reduction of experimental animal numbers.

Application of Imaging Techniques to Cases of Drug-Induced Crystal Nephropathy in Preclinical Studies.

A number of drugs can cause precipitates within renal tubules leading to crystal nephropathy. Crystal nephropathy is usually an exposure-related finding and is not uncommon in preclinical studies, where high doses are tested. An understanding of the nature of precipitates is important for human risk assessment and further development. Our aim was to investigate the ability of various imaging techniques to detect the presence of drugs or metabolites in renal crystals. We applied matrix-assisted laser desorption/ionization-Fourier transform ion cyclotron resonance mass spectrometry (MALDI-FTICR MS) imaging, Raman and infrared microspectroscopy, scanning electron microscopy coupled with energy dispersive X-ray (SEM/EDX) spectroscopy and standard histopathology to cases of drug-induced crystal nephropathy, induced in rodents and primates by 4 compounds. MALDI-FTICR MS imaging enabled the identification of the drug-related crystal content in all 4 cases of nephropathy, without reference material and with high accuracy. Crystals were composed of unchanged parent drug and/or metabolites. Similar results were obtained using Raman and infrared microspectroscopy for 2 compounds. In the absence of reference standards of metabolites, Raman and infrared microspectroscopy showed that the crystals consisted of components similar, but not identical, to the administered drug for the other compounds, a limitation for these techniques. SEM/EDX showed which counter ions were colocalized with the identified drug-related material, complementing the MALDI-FTICR MS findings. Therefore, we recommend MALDI-FTICR MS as a first-line methodology to characterize crystal nephropathies. Raman and infrared microspectroscopy may be useful when MALDI-FTICR MS imaging cannot be applied. SEM/EDX could be considered as a complementary technology.

beta-carotene-induced changes in RARbeta isoform mRNA expression patterns do not influence lung adenoma multiplicity in the NNK-initiated A/J mouse model.

A number of epidemiological studies have reported associations of beta-carotene plasma levels or intake with decreased lung cancer risk. However, intervention studies in smokers reported increased lung tumor rates after high long-term beta-carotene supplementation. For insight into these conflicting results, we studied the influence of beta-carotene on tobacco smoke carcinogen-induced lung cancer development in the A/J-mouse using 4-(N-Methyl-N-nitro samino)-1-(3-pyridyl)-1-butanone (NNK) as the initiator and lung adenoma multiplicity as the functional endpoint. Gene regulation of the putative tumor suppressor RARbeta in mouse lung was analyzed by quantitative real-time reverse transcriptase-polymerase chain reaction (RT-PCR) for its relevance in predicting the endpoint of lung cancer. A/J-mice achieved plasma beta-carotene levels of up to 3 micromol/L within 4 wk and up to 6 micromol/L after 6 mo of supplementation on a diet modified to enhance beta-carotene absorption. Despite high lung beta-carotene concentrations of up to 6 micromol/kg, tumor multiplicity was not significantly affected by the beta-carotene treatment, either in carcinogen-initiated or non-initiated mice, and was unrelated to beta-carotene dose and the time point of treatment during cancer formation. Tumor multiplicity did not correlate with beta-carotene plasma levels in NNK-treated animals. All RARbeta isoforms were significantly suppressed in the lungs of NNK- and NNK plus high dose beta-carotene-treated animals. However, the number of tumors per mouse did not correlate with the RARbeta-isoform expression levels. beta-carotene alone after 3 mo of supplementation mildly but significantly increased levels of RARbeta1, beta2, and beta4. This increase persisted for 6 mo for RARbeta2 and beta4. In summary, we found no effect of beta-carotene on tumor formation in the NNK-initiated A/J-mouse lung cancer model with respect to dose or time point of treatment. beta-Carotene-induced changes in RARbeta isoform gene expression levels were not predictive for the number of lung tumors but were indicative of intact beta-carotene metabolism and persistent sensitivity to retinoic acid in the mice. Down-regulation of RARbeta in NNK-induced adenoma-bearing lungs was similar to that observed in human lung cancer and further confirms the A/J-mouse as a valuable model for lung carcinogenesis.

Beta-carotene interaction with NNK in the AJ-mouse model: effects on cell proliferation, tumor formation and retinoic acid responsive genes.

We studied the influence of beta-carotene on the tobacco smoke carcinogen 4-(N-Methyl-N-nitrosamino)-1-(3-pyridyl)-1-butanone (NNK)-induced lung tumor development in the A/J-mouse model. The normally low beta-carotene absorption was facilitated with a diet enriched in fat and bile salt, resulting in plasma and lung tissue levels similar to humans. beta-Carotene enhanced NNK-induced early bronchial cell proliferation, however, this effect was not predictive for later tumor development. Tumor multiplicity was not significantly affected by beta-carotene, neither in carcinogen-initiated nor in uninitiated mice, and regardless of dose and time point of supplementation during tumor development. RARbeta isoform and CYP26 gene expression levels analyzed by quantitative RT-PCR were weakly, but significantly, inversely correlated and showed evidence for altered retinoid signaling and catabolism in the lungs of NNK-initiated, beta-carotene supplemented mice. However, this interaction did not translate into enhanced tumor multiplicity. These results indicate that impaired retinoid signaling is not likely a key factor in lung tumorigenesis in this mouse model.

Modulation of oral squamous cell carcinoma incidence in rats via diet and a novel calcium channel antagonist.

An unexpected dose related increase in oral squamous cell carcinomas was observed in a standard 2-year carcinogenicity study with a novel calcium channel blocker, in which Wistar rats received daily doses of 0, 1.5, 7, 20, or 40 mg/kg of the compound mixed with a standard diet containing fibers from barley. This finding was associated with an increased incidence of severe (destructive) periodontitis and the formation of oro-nasal fistulae at the 2 highest doses. Five assays of the compound for genotoxicity were negative indicating that a genotoxic effect was highly improbable. To investigate the underlying pathogenic mechanisms a second 2-year study in the same strain of rats was initiated and the influence of the diet and/or a possible local irritancy by the drug was assessed. In this second study the compound was administered by oral gavage at daily doses of 0, 7, or 40 mg/kg (later reduced to 20 mg/kg due to systemic intolerance) to rats maintained either on the standard diet or on a low fiber diet assumed to be less aggressive in terms of inducing periodontal lesions. Dose dependent gingival overgrowth (a class-related effect) was observed in the incisor and molar teeth area of all treated groups but was independent of the diet used. No oral tumors were found in the standard diet or low fiber diet controls and all treatment groups fed the low fiber diet, whereas in the high-dose group fed the standard diet a total of 8 oral squamous cell carcinomas were detected in association with an increased incidence of severe periodontitis. These results indicate that the increased incidence of squamous cell carcinomas observed upon chronic administration of the compound is not due to a direct tumorigenic effect of the drug. Tumor formation is attributable to severe periodontal disease favored by the diet and class related gingival overgrowth.