Discovery of a bicyclo[4.3.0]nonane derivative DS88790512 as a potent,selective, and orally bioavailable blocker of transient receptor potential canonical 6 (TRPC6)

In this study, we aimed to synthesize a novel blocker of transient receptor potential canonical 6 (TRPC6). The sp² carbon atoms of the aminoindane skeleton of the known inhibitor were replaced with sp³ carbon atoms to increase the molecular complexity, measured by fraction sp³ (Fsp³). The representative compound, a bicyclo[4.3.0]nonane derivative DS88790512, inhibited TRPC6 with an IC₅₀ value of 11?nM. Notably, DS88790512 exhibited excellent selectivity against hERG and hNa_V1.5 channels, and was identified as an orally bioavailable compound.     

Cyclic analogue of S-benzylisothiourea that suppresses kynurenine production without inhibiting indoleamine 2,3-dioxygenase activity

Kynurenine is biosynthesised from tryptophan catalysed by indoleamine 2,3-dioxygenase (IDO). The abrogation of kynurenine production is considered a promising therapeutic target for immunological cancer treatment. In the course of our IDO inhibitor programme, formal cyclisation of the isothiourea moiety of the IDO inhibitor 1 afforded the 5-Cl-benzimidazole derivative 2b-6, which inhibited both recombinant human IDO (rhIDO) activity and cellular kynurenine production. Further derivatisation of 2b-6 provided the potent inhibitor of cellular kynurenine production 2i (IC₅₀?=?0.34?µM), which unexpectedly exerted little effect on the enzymatic activity of rhIDO. Elucidation of the mechanism of action revealed that compound 2i suppresses IDO expression at the protein level by inhibiting STAT1 expression in IFN-γ-treated A431 cells. The kynurenine-production inhibitor 2i is expected to be a promising starting point for a novel approach to immunological cancer treatment.     

Anti-inflammatory roles of mesenchymal stromal cells during acute Streptococcus pneumoniae pulmonary infection in mice

Background

Pneumonia is the fourth leading cause of death worldwide, and Streptococcus pneumoniae is the most commonly associated pathogen. Increasing evidence suggests that mesenchymal stromal cells (MSCs) have anti-inflammatory roles during innate immune responses such as sepsis. However, little is known about the effect of MSCs on pneumococcal pneumonia.

A male gametocyte osmiophilic body and microgamete surface protein of the rodent malaria parasite Plasmodium yoelii (PyMiGS) plays a critical role in male osmiophilic body formation and exflagellation

Anopheles mosquitoes transmit Plasmodium parasites of mammals, including the species that cause malaria in humans. Malaria pathology is caused by rapid multiplication of parasites in asexual intraerythrocytic cycles. Sexual stage parasites are also produced during the intraerythrocytic cycle and are ingested by the mosquito, initiating gametogenesis and subsequent sporogonic stage development. Here, we present a Plasmodium protein, termed microgamete surface protein (MiGS), which has an important role in male gametocyte osmiophilic body (MOB) formation and microgamete function. MiGS is expressed exclusively in male gametocytes and microgametes, in which MiGS localises to the MOB and microgamete surface. Targeted gene disruption of MiGS in a rodent malaria parasite Plasmodium yoelii 17XNL generated knockout parasites (ΔPyMiGS) that proliferate normally in erythrocytes and form male and female gametocytes. The number of MOB in male gametocyte cytoplasm is markedly reduced and the exflagellation of microgametes is impaired in ΔPyMiGS. In addition, anti‐PyMiGS antibody severely blocked the parasite development in the Anopheles stephensi mosquito. MiGS might thus be a potential novel transmission‐blocking vaccine target candidate.     

BDNF and trkB mRNA Expression in Neurons of the Neonatal Mouse Barrel Field Cortex: Normal Development and Plasticity after Cauterizing Facial Vibrissae

Development of the central somatosensory system is profoundly modulated by the sensory periphery. Cauterization of facial whiskers alters the segregation pattern of barrels in rodents only during a few days just after birth (critical period). Although a molecular basis of the segregation of barrel neurons and the critical period for the anatomical plasticity observed in layer IV barrel neuron is not clear yet, the accumulating evidence suggests that neurotrophins modulate synaptic connections including central nervous system. In this study, we showed by in situ hybridization that mouse barrel side neurons express brain-derived neurotrophic factor (BDNF) mRNA and both catalytic and non-catalytic forms of trkB mRNA. Cautery of row C vibrissae on the right side of the face within 24 h after birth (post natal day 0, PND0) reduced the expression of BDNF and trkB mRNA from the division region between the contralateral row C barrels at PND7. The vibrissae in row A, C, and E were cauterized at PND0 followed by quantitative RT-PCR for BDNF and trkB mRNA with total RNA isolated from the barrel region at PND7. The result showed that BDNF, but not trkB, mRNA was increased several-fold in the contralateral barrel region. These data suggest that the expression of BDNF mRNA is differentially regulated between injured barrels and actively innervated barrels. The differential expression of the mRNA encoding neurotrophins and their receptors may be important in regulating the injury-dependent re-segregation of barrels.     

Highly sensitive analytical method for aluminum movement in soybean root through lumogallion staining

We present highly sensitive aluminum detection method in root using fluorescent lumogallion. Roots treated with 100 μM AlCl₃ including 0.2 mM CaCl₂ (pH 4.5) were stained for 60 min with 10 μM lumogallion fluorescence solution and fluorescence from aluminum complex in root was observed under confocal laser microscope. There was a good correlation between the intensity of fluorescence and aluminum content. When the amount of aluminum lost during each step in staining process was measured, it was found that about 10% of aluminum was lost only at staining stage. Through lumogallion staining method, aluminum accumulation especially at an early stage of aluminum treatment in root was shown. At the beginning (2 hr), aluminum began to be accumulated in root cap. After 4 hr treatment, the aluminum distribution was spread to about 3 mm from root apex in the root cap and outer cortex. When aluminum was found in the outer cortex in 3–5 mm from the root apex, the viability was tended to be decreased in the same area (6 hr). At the same time, aluminum amount in meristem was increased. However the comparison of lumogallion staining method with that of morin, which has been widely used to detect aluminum in root, the sensitivity of lumogallion method was found to be much higher.     

r{beta}-Glucosidase in the Indigo Plant: Intracellular Localization and Tissue Specific Expression in Leaves

rß-Glucosidase of indigo plant (Polygonum tinctorium)has a high substrate specificity for indican (indoxyl rß-D-gIu-coside).To examine the localization of this rß-glucosidase,we fractionated the cells of the leaves and analysed them im-munocytochemically.Immunoelectron micrographs with specific antibodies againstthe rßglucosidase clearly showed that the rß-glucosidasewas localized in the stroma of the chloroplasts in mesophyllcells, but not in the thylakoid membrane. Chloroplasts wereisolated from the crude ho-mogenate of the fresh leaves by Percolldensity gradient centrifugation and then subjected to suborganellarfrac-tionation. rßGlucosidase activity was specificallydetected in the stromal fraction, but not in the thylakoid membrane.This was also supported by the result of an immunoblot of thefractions with anti-rßglucosidase antibodies. Therß-gIu-cosidase was immunocytochemically localizedin the chloroplasts of mesophyll cells, but not in any chloroplastsin marginal cells of the vascular bundle or epidermal cells;ribulose 1,5-bisphosphate carboxylase (Rubisco), a typical stromalprotein, was observed in all chloroplasts in these cells. Theseresults suggest that rß-glucosidase is tissue specificin its expression in the leaves of the indigo plant. (Received April 14, 1997; Accepted July 10, 1997)     

cDNA cloning and differential gene expression of three catalases in pumpkin

Three cDNA clones (cat1, cat2, cat3) for catalase (EC 1.11.1.6) were isolated from a cDNA library of pumpkin (Cucurbita sp.) cotyledons. In northern blotting using the cDNA-specific probe, the cat1 mRNA levels were high in seeds and early seedlings of pumpkin. The expression pattern of cat1 was similar to that of malate synthase, a characteristic enzyme of glyoxysomes. These data suggest that cat1 might encode a catalase associated with glyoxysomal functions. Furthermore, immunocytochemical analysis using cat1-specific anti-peptide antibody directly showed that cat1 encoding catalase is located in glyoxysomes. The cat2 mRNA was present at high levels in green cotyledons, mature leaf, stem and green hypocotyl of light-grown pumpkin plant, and correlated with chlorophyll content in the tissues. The tissue-specific expression of cat2 had a strong resemblance to that of glycolate oxidase, a characteristic enzyme of leaf peroxisomes. During germination of pumpkin seeds, cat2 mRNA levels increased in response to light, although the increase in cat2 mRNA by light was less than that of glycolate oxidase. cat3 mRNA was abundant in green cotyledons, etiolated cotyledons, green hypocotyl and root, but not in young leaf. cat3 mRNA expression was not dependent on light, but was constitutive in mature tissues. Interestingly, cat1 mRNA levels increased during senescence of pumpkin cotyledons, whereas cat2 and cat3 mRNAs disappeared during senescence, suggesting that cat1 encoding catalase may be involved in the senescence process. Thus, in pumpkin, three catalase genes are differentially regulated and may exhibit different functions.     

Biodegradation of aniline, anthracene, chlornitrophen, fenitrothion and linear alkylbenzene sulphonate in pond water

Biodegradation of five chemicals (aniline, anthracene, chlornitrophen (CNP), fenitrothion (FNT) and linear alkylbenzene sulphonate (LAS)) by aquatic bacteria in three different types of ponds was determined according to the cultivation method developed by this group. The degradability toward these chemicals was varied among the ponds, except for LAS which was decomposed well in all samples. Higher degradability towards the two agrochemicals, CNT and FNT, was found in the pond surrounded by paddy fields, whereas aniline and anthracene were decomposed more rapidly in the pond located in the industrial area. Water from the pond in the botanical garden, with the least exposure to any chemicals, exhibited the lowest degradation toward all chemicals tested. There was no significant seasonal variation in the biodegradation of chemicals in these ponds. It was deduced that biodegradability toward certain chemicals could be a result of acclimatization of the microbial community by chemical contamination present and past, suggesting the possible use of biodegradation profiles as an indicator for chemical pollution in the aquatic environment.