A novel [5.2.1]bicyclic amine is a potent analgesic without µ opioid activity.

We identified (5R)-6-methyl-5-phenyl-1,3,4,5,6,7-hexahydro-2,5-methano-2,6-benzodiazonine (DS21980956: 4-(R)) as a novel [5.2.1]bicyclic basic compound. The scaffold was inspired by fentanyl or pethidine, which possess potent analgesic activities. DS21980956 had potent analgesic activity in the mouse acetic acid writhing test or tail flick test without agonistic activity at the µ opioid receptor (MOR). The mechanism of analgesic action of DS21980956 was considered to differ from a biased ligand, for example, TRV-130 (3, oliceridine).

Urothelial hyperplasia with calculi (papillomatosis) in the urinary bladder of a male spontaneous diabetic Torii rat.

A 40-week-old male spontaneous diabetic Torii rat, an animal model of type 2 diabetes mellitus, was found to have marked urinary calculi with hematuria in the urinary bladder on necropsy. Histological findings in the urinary bladder included a papillary growth pattern with a fibrovascular stroma without atypia. Fine granular materials in the bladder lumen were positive for Von Kossa staining but negative for periodic acid-Schiff or Gram staining, indicating no apparent bacterial infection in the urinary bladder. Scanning electron microscopy revealed that the urinary calculi were magnesium ammonium phosphate crystals (struvite). On the basis of the results, the lesion was diagnosed as urothelial hyperplasia with calculi (papillomatosis). Chronic inciting stimuli by struvite crystals were considered the primary cause of the bladder findings.

Histology Atlas of the Developing Mouse Urinary System With Emphasis on Prenatal Days E10.5-E18.5.

Congenital abnormalities of the urinary tract are some of the most common human developmental abnormalities. Several genetically engineered mouse models have been developed to mimic these abnormalities and aim to better understand the molecular mechanisms of disease. This atlas has been developed as an aid to pathologists and other biomedical scientists for identification of abnormalities in the developing murine urinary tract by cataloguing normal structures at each stage of development. Hematoxylin and eosin- and immunohistochemical-stained sections are provided, with a focus on E10.5-E18.5, as well as a brief discussion of postnatal events in urinary tract development. A section on abnormalities in the development of the urinary tract is also provided, and molecular mechanisms are presented as supplementary material. Additionally, overviews of the 2 key processes of kidney development, branching morphogenesis and nephrogenesis, are provided to aid in the understanding of the complex organogenesis of the kidney. One of the key findings of this atlas is the histological identification of the ureteric bud at E10.5, as previous literature has provided conflicting reports on the initial point of budding. Furthermore, attention is paid to points where murine development is significantly distinct from human development, namely, in the cessation of nephrogenesis.

Functional and Morphological Characteristics of Pancreatic Islet Lesions Induced by Quinolone Antimicrobial Agent Gatifloxacin in Rats.

We characterized pancreatic islet lesions induced by several quinolones using functional and morphological examinations of the pancreatic islets in male rats orally administered gatifloxacin, lomefloxacin, or levofloxacin at 300 mg/kg for 14 consecutive days. Consequently, in contrast to lomefloxacin or levofloxacin, gatifloxacin increased serum glucose and glycosylated albumin on day 14 and elevated serum glucose tended to decrease insulin in the intravenous glucose tolerance test. Microscopically, only gatifloxacin induced cytoplasmic vacuoles containing eosinophilic homogenous contents in islet cells. Immunohistochemical examination revealed that vacuolated islet cells were positively stained for insulin, demonstrating they were pancreatic ß cells. Electron microscopy showed that the cytoplasmic vacuoles represented dilated cisterna of the rough endoplasmic reticulum filled with electron-lucent materials in pancreatic ß cells. Moreover, insulin secretory granules were drastically decreased in vacuolated islet cells, suggesting impaired insulin synthesis and/or transport. This gatifloxacin-induced pancreatic toxicity in rats was considered to be associated with high pancreatic drug distribution. These results demonstrated that gatifloxacin provoked functional and morphological pancreatic ß cell alteration associated with impaired insulin synthesis and/or transport, leading to hyperglycemia.

UNC569-induced Morphological Changes in Pigment Epithelia and Photoreceptor Cells in the Retina through MerTK Inhibition in Mice.

Mer proto-oncogene tyrosine kinase (MerTK), which is expressed in the retinal pigment epithelium (RPE), regulates phagocytosis of shed photoreceptor outer segments (POS). To investigate the effects of drug-induced MerTK inhibition on the retina, UNC569, a specific MerTK inhibitor, was orally administered to male mice at a concentration of 60, 100, or 150 mg/kg for up to 14 days. Furthermore, MerTK inhibition in the retinal tissue sample was examined using a phosphorylation assay following a single dose of UNC569 at 100 mg/kg. In electron microscopic examination, UNC569 at 100 mg/kg or more increased phagosomes and phagolysosomes in the RPE. In addition, UNC569 at 150 mg/kg increased chromatin-condensed nuclei in the outer nuclear layer, indicating the early phase of apoptosis of photoreceptor cells. MiR-183, miR-96, and miR-124, which are enriched in photoreceptor cells, were elevated in the plasma of mice following treatment of 150-mg/kg UNC569, in conjunction with the photoreceptor lesion. Additionally, 100-mg/kg UNC569 inhibited MerTK phosphorylation in the retina. These results suggest that MerTK inhibition impaired phagocytic function of the retina, leading to accumulation of shed POS within the POS layer and increasing phagosomes and phagolysosomes in the RPE to delay POS renewal, resulting in apoptosis of photoreceptor cells.

Transcriptional profile of ethylene glycol monomethyl ether-induced testicular toxicity in rats.

To clarify the molecular mechanism of ethylene glycol monomethyl ether (EGME)-induced testicular toxicity, the potential for EGME-related changes in transcript levels of genes including spermatocyte-specific genes was evaluated in the testis of rats given single dosing of EGME at 200, 600, or 2000 mg/kg. Furthermore, the contribution of decreased testicular testosterone on EGME-induced spermatocyte toxicity was investigated by comparing to transcriptional profile due to a testosterone synthesis inhibitor, ketoconazole (KET), at 30 or 300 mg/kg. EGME at 600 mg/kg or more dose-dependently caused testicular toxicity characterized by degeneration and necrosis of spermatocytes at stage VII-XIV seminiferous tubules. The spermatocyte injury was well correlated with decreased spermatocyte-specific gene expression. Analysis of upstream regulators by the Ingenuity Pathways Analysis system suggested that up-regulation of oxidative stress, protein kinase activation, and histone acetylation was involved in EGME-induced spermatocyte toxicity. Interestingly, KET decreased testicular testosterone to a similar extent compared to the EGME treatment, but KET at up to 300 mg/kg did not show any histopathological abnormality or change in the expression of spermatocyte-specific genes. These results suggested that the decreased testicular testosterone have little impact on EGME-induced spermatocyte injury. In contrast, KET showed trends toward increases in Hsd3b2 and Hsd17b2 mRNAs, presumably resulting from inhibition of androgen synthesis. Transcriptome analysis clearly demonstrated the differential effects of EGME and KET on androgen synthesis. In conclusion, EGME caused spermatocyte toxicity correlated with decreased expression of spermatocyte-specific genes. Furthermore, oxidative stress, protein kinase activation, and histone acetylation were suggested to be involved in EGME-induced testicular toxicity.

Estimation of glomerular filtration rate in dogs by a single-blood sample method involving iodixanol.

OBJECTIVE: To establish a simplified single-blood-sample method (SBSM) involving iodixanol to estimate glomerular filtration rate (GFR) in dogs and compare data provided by that procedure with data provided by a conventional multiple-blood-sample method (MBSM) involving inulin. ANIMALS: 26 healthy dogs and 36 dogs with naturally occurring renal disease. PROCEDURES: Dogs were used in various preliminary experiments to establish protocols for the SBSM and the MBSM of GFR estimation. To evaluate the relationship between GFRs obtained by the SBSM and the MBSM each involving iodixanol, iodixanol (40 mg of I/kg) was administered IV to 26 healthy dogs and 36 dogs with renal disease; blood sample collection was performed before and at 60, 90, and 120 minutes after the injection. To evaluate the relationship between GFRs obtained by the SBSM involving iodixanol and the MBSM involving inulin, iodixanol (40 mg of I/kg) and inulin (50 mg/kg) were coadministered IV to 22 healthy dogs and 3 dogs with renal disease, followed by blood sample collection 30, 60, 90, and 120 minutes later. Serum iodixanol and inulin concentrations were separately determined by reverse-phase high-performance liquid chromatography. RESULTS: Findings revealed a correlation (r = 0.99) between GFR estimated by the SBSM and MBSM each involving iodixanol. Likewise, GFR estimated by the SBSM involving iodixanol was correlated (r = 0.89) with that estimated by the MBSM involving inulin. CONCLUSIONS AND CLINICAL RELEVANCE: Results indicated that the SBSM involving iodixanol can be applied to estimate GFR in dogs, instead of use of an MBSM.

Chondrotoxicity and toxicokinetics of novel quinolone antibacterial agents DC-159a and DX-619 in juvenile rats.

Quinolone antibacterial agents are extensively utilized in antimicrobial chemotherapy. However, they have been reported to induce arthropathy in juvenile animals, and the mechanism has not been clarified. Recently, we have demonstrated that Dusp1, Tnfrsf12a, Ptgs2, Fos, Mt1a, Plaur, Mmp3, Sstr1 and Has2 genes change in the articular cartilage of juvenile rats with a single oral administration of ofloxacin (OFLX), suggesting that these genes are involved in the induction of OFLX-induced chondrotoxicity. In the present study, to compare the chondrotoxic potential between new synthesized quinolones DC-159a and DX-619, and OFLX, they were orally administered by gavage at a dose level of 300 or 900 mg/kg/day to male juvenile Sprague-Dawley (SD) rats, 3 weeks of age, for 7 days. Then the distal humerus and femur were subjected to microscopic examination. Moreover, concentrations of these quinolones in the femoral articular cartilage were measured in male juvenile SD rats following a single oral administration at 100, 300 or 900 mg/kg. Furthermore, gene expression of Dusp1, Tnfrsf12a, Ptgs2, Fos, Mt1a, Plaur, Mmp3, Sstr1 and Has2 was investigated in the articular cartilage of the distal femur in male juvenile SD rats treated with 900 mg/kg of DC-159a or DX-619 by quantitative real-time reverse transcription-polymerase chain reaction (qRT-PCR) analysis. In a microscopic examination, no changes in the articular cartilage were observed in any animal administered DC-159a or DX-619. On the contrary, cavity formation and chondrocyte cluster in the cartilage of distal humerus and femur were noted in animals receiving OFLX at 300 mg/kg/day or more. In toxicokinetic analysis, the maximum concentration (C(max)) value in the articular cartilage (cartilage C(max)) of DC-159a or DX-619 at 900 mg/kg was lower than that of OFLX at 300 mg/kg. However, the area under the cartilage concentration-time curve (cartilage AUC)(0-24h) value of DC-159a or DX-619 at 900 mg/kg was higher than that of OFLX at 300 mg/kg. In qRT-PCR analysis, up-regulated Dusp1, Fos and Mt1a, and down-regulated Sstr1 and Has2 genes were seen in the femoral articular cartilage of rats given DX-619 or DC-159a at 900 mg/kg. However, Tnfrsf12a, Ptgs2, Plaur and Mmp3 genes, which were up-regulated in the distal femoral articular cartilage exposed to OFLX, did not increase or slightly increased. In conclusion, the penetration of DC-159a or DX-619 into the cartilage was low compared with that of OFLX, and no obvious changes in Tnfrsf12a, Ptgs2, Plaur and Mmp3 genes were observed in the articular cartilage of juvenile rats treated with DC-159a or DX-619, which was likely to be responsible for non-chondrotoxic potentials of DC-159a and DX-619.

Gene expression profiles in the articular cartilage of juvenile rats receiving the quinolone antibacterial agent ofloxacin.

Quinolone antibacterial agents are extensively utilized in antimicrobial chemotherapy. However, they have been reported to induce arthropathy in juvenile animals, and the mechanism has not been clarified. In the present study, to investigate the molecular details of the chondrotoxicity of the quinolone ofloxacin (OFLX), it was orally administered by gavage at a dose level of 900 mg/kg once to male juvenile Sprague-Dawley rats, 3 weeks of age. Then gene expression profiles in the articular cartilage of the distal femur were analyzed at 2, 4, 8 and 24h post-dose. In the GeneChip analysis, the expression of 134 gene probes in the OFLX-treated group showed statistically significant differences with at least 1.5-fold difference from the control. Among them, intracellular signaling cascade- and stress response-related genes changed at 2h post-dose; cell death- and inflammatory response-related genes at 4 and 8h post-dose; basic-leucine zipper transcription factor and stress response-related genes at 8 and 24h post-dose; stress response-, proteolysis- and glycoprotein-related genes at 24h post-dose. In a quantitative real-time reverse transcription-polymerase chain reaction analysis, up-regulated Dusp1 (intracellular signaling cascade-related gene), Tnfrsf12a (cell death-related gene), Ptgs2, Fos (inflammatory response-related genes), Mt1a, Plaur (stress response-related genes) and Mmp3 (proteolysis-related gene) and down-regulated Sstr1 and Has2 (glycoprotein-related genes) were observed with dose dependency in the articular cartilage of juvenile rats treated with OFLX at 100, 300 and 900 mg/kg. The expression of Tnfrsf12a, Ptgs2, Plaur and Mmp3 was also noted in chondrocytes around the cartilage lesions by in situ hybridization. In conclusion, our results suggest that cytokines, chemokines and/or proteases produced by up-regulation of cell death-, inflammatory response-, stress response- and proteolysis-related genes play a important role in the onset of OFLX-induced chondrotoxicity in juvenile rats.

Early pathophysiological features in canine renal papillary necrosis induced by nefiracetam.

To ascertain the early pathophysiological features in canine renal papillary necrosis (RPN) caused by the neurotransmission enhancer nefiracetam, male beagle dogs were orally administered nefiracetam at 300 mg/kg/day for 4 to 7 weeks in comparison with ibuprofen, a non-steroidal anti-inflammatory drug (NSAID), at 50 mg/kg/day for 5 weeks. During the dosing period, the animals were periodically subjected to laboratory tests, light-microscopic, immunohistochemical, and electron-microscopic examinations and/or cyclooxygenase (COX)-2 mRNA analysis. In laboratory tests, a decrease in urinary osmotic pressure and increases in urine volume and urinary lactate dehydrogenase (LDH) level were early biomarkers for detecting RPN. Light-microscopically, nefiracetam revealed epithelial swelling and degeneration in the papillary ducts in week 7, while ibuprofen displayed degeneration and necrosis in the papillary interstitium in week 5. In immunohistochemical staining with COX-2 antibody, nefiracetam elicited a positive reaction within interstitial cells around the affected epithelial cells in the papillary ducts (upper papilla) in week 7, and ibuprofen positively reacted within interstitial cells adjacent to the degenerative and/or necrotic lesions in week 5. Ultrastructurally, nefiracetam exhibited reductions of intracellular interdigitation and infoldings of epithelial cells in the papillary ducts, whereas ibuprofen showed no changes in the identical portions. Thus, the early morphological change in the papilla brought about by nefiracetam was quite different from that elicited by ibuprofen. By the renal papillary COX-2 mRNA expression analysis, nefiracetam exceedingly decreased its expression in week 4, but markedly increased it in week 7, suggesting an induction of COX-2 mRNA by renal papillary lesions. These results demonstrate that the epithelial cell in the papillary ducts is the primary target site for the onset of RPN evoked by nefiracetam.

Structure-phototoxicity relationship in Balb/c mice treated with fluoroquinolone derivatives, followed by ultraviolet-A irradiation.

We examined the structure-phototoxicity relationship for fluoroquinolone antimicrobial agents (quinolones) using female albino Balb/c mice. First of all, to obtain an optimum dosage level for induction of phototoxicity, the prototype phototoxicant sparfloxacin was intravenously administered once at 10 mg/kg, 30 mg/kg or 100 mg/kg to female mice, followed immediately by ultraviolet-A (UVA) irradiation for 4 h (21.6J/cm2). The auricular thickness was measured at pre-dose (0 h), 4, 24, 48, 72 and 96 h post-dose, and then the histopathological examination of the auricle was performed. As results, the auricular thickness increased from 30 mg/kg, in conjunction with edema, cellular infiltration, epidermal necrosis and focal loss of the auricle. On the basis of these information, ciprofloxacin, enoxacin, fleroxacin, gatifloxacin, lomefloxacin, norfloxacin and ofloxacin were given intravenously to mice at a fixed dose of 100 mg/kg to compare their potential phototoxicities. Certain quinolones caused the auricular lesions in the following rank order (from lowest to highest): vehicle control (non-phototoxicity)=gatifloxacin=ofloxacin

Müllerian tumor (atypical polypoid adenomyoma) with sex-cord differentiation arising from the oviduct in an adolescent cynomolgus monkey (Macaca fascicularis).

In a 6.5-year-old cynomolgus monkey (Macaca fascicularis), a tumor mass was macroscopically located near the right ovary, connected to the oviduct, and completely separated from the uterus. The mass was an elongated spherical shape with a smooth surface and milky-white color. It was approximately 3.5 cm across its major axis, and the sagittal section was composed of cystic walls and a multi-lobular luminal nodule. Light-microscopically, the polypoid mass consisted of admixtures of neoplastic mesenchymal and epithelial elements. Lipid-rich foamy cells scattered within the tumor mass formed nest-like/aggregated populations. Immunohistochemically, mesenchymal tumor cells stained diffusely positive for vimentin, desmin, and alpha (alpha)-smooth muscle actin, demonstrating a smooth muscle origin. Mesenchymal tumor cells contained mitotic figures, and tumor elements including mesenchymal, epithelial, and lipid-rich foamy cells stained strongly positive for proliferating cell nuclear antigen (PCNA). Moreover, lipid-rich foamy cells elicited positive reactions for testosterone, suggesting sex-cord element differentiation. Electron-microscopically, actin filaments, basement membranes, and electron-dense cytoplasmic bodies were noted in the spindle cells, and invaginated nuclei were observed in adenomatous cells. In contrast, foamy cells contained numerous lipid vacuoles in the cytoplasm. From these findings, the tumor was diagnosed as an atypical polypoid adenomyoma (benign mixed müllerian tumor) with sex-cord differentiation arising from the oviduct. This tumor was considered to be an exceedingly rare finding in the adolescent cynomolgus monkey.