Synthesis and structure-activity relationship of 7-azaindole piperidine derivatives as CCR2 antagonists

The synthesis and structure-activity relationship of a series of 7-azaindole piperidine derivatives are described. SAR studies led to the discovery of the potent CCR2 antagonists displaying IC(50) values in the nanomolar range. The representative compound 15 showed reasonable P450 and pharmacokinetics profile.     

Broadening the avenue of intersubgenomic heterosis in oilseed Brassica

Accumulated evidence has shown that each of the three basic Brassica genomes (A, B and C) has undergone profound changes in different species, and has led to the concept of the “subgenome”. Significant intersubgenomic heterosis was observed in hybrids between traditional Brassica napus and first generation lines of new type B. napus. The latter were produced by the partial introgression of subgenomic components from different species into B. napus. To increase the proportion of exotic subgenomic components and thus achieve stronger heterosis, lines of first generation new type B. napus were intercrossed with each other, and subjected to intensive marker-assisted selection to develop the second generation of new type B. napus. The second generation showed better agronomic traits and a higher proportion of introgression of subgenomic components than did the first generation. Compared with the commercial hybrid and the hybrids produced with the first generation new type B. napus, the novel hybrids showed stronger heterosis for seed yield during the 2 years of field trials. The extent of heterosis showed a significant positive correlation with the introgressed subgenomic components in the parental new type B. napus. To increase the content of the exotic subgenomic components further and to allow sustainable breeding of novel lines of new type B. napus, we initiated the development of a gene pool for new type B. napus that contained a substantial amount of genetic variation in the A^r and C^c genome. We discuss new approaches to broaden the avenue of intersubgenomic heterosis in oilseed Brassica.     

PDCD10/CCM3 acts downstream of {gamma}-protocadherins to regulate neuronal survival

γ-Protocadherins (PCDH-γ) regulate neuronal survival in the vertebrate central nervous system. The molecular mechanisms of how PCDH-γ mediates this function are still not understood. In this study, we show that through their common cytoplasmic domain, different PCDH-γ isoforms interact with an intracellular adaptor protein named PDCD10 (programmed cell death 10). PDCD10 is also known as CCM3, a causative genetic defect for cerebral cavernous malformations in humans. Using RNAi-mediated knockdown, we demonstrate that PDCD10 is required for the occurrence of apoptosis upon PCDH-γ depletion in developing chicken spinal neurons. Moreover, overexpression of PDCD10 is sufficient to induce neuronal apoptosis. Taken together, our data reveal a novel function for PDCD10/CCM3, acting as a critical regulator of neuronal survival during development.     

Efficient Plasmonic Au/CdSe Nanodumbbell for Photoelectrochemical Hydrogen Generation beyond Visible Region

In this communication, light harvesting and photoelectrochemical (PEC) hydrogen generation beyond the visible region are realized by an anisotropic plasmonic metal/semiconductor hybrid photocatalyst with precise control of their topology and heterointerface. Controlling the intended configuration of the photocatalytic semiconductor to anisotropic Au nanorods' plasmonic hot spots, through a water phase cation exchange strategy, the site‐selective overgrowth of a CdSe shell evolving from a core/shell to a nanodumbbell is realized successfully. Using this strategy, tip‐preferred efficient photoinduced electron/hole separation and plasmon enhancement can be realized. Thus, the PEC hydrogen generation activity of the Au/CdSe nanodumbbell is 45.29 µmol cm^?2 h^?1 (nearly 4 times than the core/shell structure) beyond vis (λ > 700 nm) illumination and exhibits a high faradic efficiency of 96% and excellent stability with a constant photocurrent for 5 days. Using surface photovoltage microscopy, it is further demonstrated that the efficient plasmonic hot charge spatial separation, which hot electrons can inject into CdSe semiconductors, leads to excellent performance in the Au/CdSe nanodumbbell.     

Characterization of five fungal endophytes producing Cajaninstilbene acid isolated from pigeon pea [Cajanus cajan (L.) Millsp

Five fungal endophytes (K4, K5, K6, K9, K14) producing Cajaninstilbene acid (CSA, 3-hydroxy-4-prenyl-5-methoxystilbene-2-carboxylic acid) were isolated from the roots of pigeon pea [Cajanus cajan (L.) Millsp.]. CSA is responsible for the prominent pharmacological activities in pigeon pea. The amount of CSA in culture solution varied among the five fungal endophytes. K4 produced the highest levels of CSA (1037.13 μg/L) among the endophytes tested after incubation for five days. Both morphological characteristics and molecular methods were used for species identification of fungal endophytes. The five endophytic isolates were characterized by analyzing the internal transcribed spacer (ITS) rRNA and β-tubulin genes. The K4, K5, K9 and K14 strains isolated from pigeon pea roots were found to be closely related to the species Fusarium oxysporum. K6 was identified as Neonectria macrodidym. The present study is the first report on the isolation and identification of fungal endophytes producing CSA in pigeon pea. The study also provides a scientific base for large scale production of CSA.     

Synthesis and protective effects of aralkyl alcoholic 2-acetamido-2-deoxy-β-D-pyranosides on hypoglycemia and serum limitation induced apoptosis in PC12 cell

Neuroprotective agents have been in the focus of attention in the treatment of ischemic stroke. Salidroside, a phenylpropanoid glycoside isolated from Rhodiola rosea L., possessed a wide range of biological activities, especially neuroprotection. In an attempt to improve neuroprotective effects of new salidroside analogs for ischemic stroke, a series of novel aralkyl alcoholic 2-acetamido-2-deoxy-β-d-pyranosides were synthesized and their protective activities against the hypoglycemia and serum limitation induced cell death in rat pheochromocytoma cells (PC12 cells) were studied. Most compounds showed strong neuroprotective effects, especially for 4g and 4h, which exhibited a great potency superior to salidroside. MTT assay, Hoechst 33342 staining, and flow cytometry with annexin V/PI staining collectively showed that pretreatment with 4g and 4h attenuated cell viability loss and apoptotic cell death in cultured PC12 cells. Caspase-3 colorimetric assay and Rhodamine 123 staining revealed the changes in expression levels of caspase-3 and mitochondrial membrane potential in PC12 cells on exposure to hypoglycemia and serum limitation with and without 4g and 4h pretreatment, respectively. All the results suggested that 4g and 4h protects the PC12 cells against hypoglycemia and serum limitation induced apoptosis possibly by modulation of apoptosis-related gene expression and restoration of the mitochondrial membrane potential. Therefore, these novel findings may provided a new framework for the design of new aralkyl alcoholic 2-acetamido-2-deoxy-β-d-pyranosides as neuroprotective agents for treating cerebral ischemic stroke and neurodegenerative diseases.