Dual inhibitors of RAF-MEK-ERK and PI3K-PDK1-AKT pathways: Design,synthesis and preliminary anticancer activity studies of 3-substituted-5-(phenylamino) indolone derivatives

The dysfunction and mutual compensatory activation of RAF-MEK-ERK and PI3K-PDK1-AKT pathways have been demonstrated as the hallmarks in several primary and recurrent cancers. The strategy of concurrent blocking of these two pathways shows clinical merits on effective cancer therapy, such as combinatory treatments and dual-pathway inhibitors. Herein, we report a novel prototype of dual-pathway inhibitors by means of merging the core structural scaffolds of a MEK1 inhibitor and a PDK1 inhibitor. A library of 43 compounds that categorized into three series (Series I–III) was synthesized and tested for antitumor activity in lung cancer cells. The results from structure-activity relationship (SAR) analysis showed the following order of antitumor activity that 3-hydroxy-5-(phenylamino) indolone (Series III)?>?3-alkenyl-5-(phenylamino) indolone (Series I)?>?3-alkyl-5-(phenylamino) indolone (Series II). A lead compound 9za in Series III showed most potent antitumor activity with IC₅₀ value of 1.8?±?0.8?µM in A549 cells. Moreover, antitumor mechanism study demonstrated that 9za exerted significant apoptotic effect, and cellular signal pathway analysis revealed the potent blockage of phosphorylation levels of ERK and AKT in RAF-MEK-ERK and PI3K-PDK1-AKT pathways, respectively. The results reported here provide robust experimental basis for the discovery and optimization of dual pathway agents for anti-lung cancer therapy.     

Inflammation inhibitors were remarkably up-regulated in plasma of severe acute respiratory syndrome patients at progressive phase

Severe acute respiratory syndrome (SARS) is a severe infectious disease that has affected many countries and regions since 2002. A novel member of the coronavirus, SARS-CoV, has been identified as the causative agent. However, the pathogenesis of SARS is still elusive. In this study, we used 2-D DIGE and MS to analyze the protein profiles of plasma from SARS patients, in the search for proteomic alterations associated with the disease progression, which could provide some clues to the pathogenesis. To enrich the low-abundance proteins in human plasma, two highly abundant proteins, albumin and IgG, were first removed. By comparing the plasma proteins of SARS patients with those of a normal control group, several proteins with a significant alteration were found. The up-regulated proteins were identified as alpha-1 acid glycoprotein, haptoglobin, alpha-1 anti-chymotrypsin and fetuin. The down-regulated proteins were apolipoprotein A-I, transferrin and transthyretin. Most of the proteins showed significant changes (up- or down-regulated) in the progressive phase of disease, and there was a trend back to normal level during the convalescent phase. Among these proteins, the alterations of fetuin and anti-chymotrypsin were further confirmed by Western blotting. Since all the up-regulated proteins identified above are well-known inflammation inhibitors, these results strongly suggest that the body starts inflammation inhibition to sustain the inflammatory response balance in the progression of SARS.     

Ectopic expression of an Ammopiptanthus mongolicus H+-pyrophosphatase gene enhances drought and salt tolerance in Arabidopsis

An orthologue of the vacuolar H⁺-pyrophosphatase (H⁺-PPase) gene, AmVP1, was isolated from a desert plant, Ammopiptanthus mongolicus (Leguminosae), by RACE-PCR. AmVP1 has a total length of 2,875?bp, with an open reading frame of 2,316?bp, which encodes a predicted polypeptide of 771 amino acids. Sequence analysis revealed that it has high similarity with the VP1 proteins from other plants. AmVP1 was strongly induced by drought stress, but only responded initially to a salt stress. In addition, a 1.8?kb upstream sequence of AmVP1 was isolated from the genomic DNA of A. mongolicus by TAIL-PCR. Cis-element as well as promoter prediction analysis indicated that it contained three promoter sequences and more than 50 cis-elements. Heterologous expression of AmVP1 in the yeast mutant ena1 could partially suppress its hypersensitivity to NaCl. Over-expressing AmVP1 resulted in enhanced tolerances to both drought and salt stresses in transgenic Arabidopsis plants. The transgenic plants accumulated more sodium and potassium in their leaves after salt stress, and retained more water while producing less malondialdehyde during drought stress. A comparative study of salt tolerance between AtVP1 (an H⁺-PPase from Arabidopsis) and AmVP1 transgenic Arabidopsis suggested that the efficiency of AmVP1 is more than threefold higher than AtVP1. Our work suggested that AmVP1 functioned as a typical VP1 gene, but might be a more efficient orthologue than AtVP1 and therefore a valuable gene for improving plant salt and drought tolerances.     

Local Knowledge and Conservation of Seagrasses in the Tamil Nadu State of India

Local knowledge systems are not considered in the conservation of fragile seagrass marine ecosystems. In fact, little is known about the utility of seagrasses in local coastal communities. This is intriguing given that some local communities rely on seagrasses to sustain their livelihoods and have relocated their villages to areas with a rich diversity and abundance of seagrasses. The purpose of this study is to assist in conservation efforts regarding seagrasses through identifying Traditional Ecological Knowledge (TEK) from local knowledge systems of seagrasses from 40 coastal communities along the eastern coast of India. We explore the assemblage of scientific and local traditional knowledge concerning the 1. classification of seagrasses (comparing scientific and traditional classification systems), 2. utility of seagrasses, 3. Traditional Ecological Knowledge (TEK) of seagrasses, and 4. current conservation efforts for seagrass ecosystems. Our results indicate that local knowledge systems consist of a complex classification of seagrass diversity that considers the role of seagrasses in the marine ecosystem. This fine-scaled ethno-classification gives rise to five times the number of taxa (10 species = 50 local ethnotaxa), each with a unique role in the ecosystem and utility within coastal communities, including the use of seagrasses for medicine (e.g., treatment of heart conditions, seasickness, etc.), food (nutritious seeds), fertilizer (nutrient rich biomass) and livestock feed (goats and sheep). Local communities are concerned about the loss of seagrass diversity and have considerable local knowledge that is valuable for conservation and restoration plans. This study serves as a case study example of the depth and breadth of local knowledge systems for a particular ecosystem that is in peril.     

Identification of an AtCRN1-like chloroplast protein BeCRN1 and its distinctive role in chlorophyll breakdown during leaf senescence in bamboo (Bambusa emeiensis ‘Viridiflavus’)

CRN1/PPH/NYC3 is one of the key genes responsible for chlorophyll degradation during senescence in both Arabidopsis and rice. In this study, BeCRN1 and its promoter, BeCRN1p, were isolated from, Bambusa emeiensis ‘Viridiflavus’, a bamboo variety, for the first time. BeCRN1 consists of 1,646 bp, with an open reading frame of 1,473 bp, encoding a predicted polypeptide of 490 amino acids. Besides, BeCRN1 contained 5 exons and 4 introns, and harbored a distinctive microsatellite in the fourth intron. Differences in BeCRN1p are observed primarily in the AtCRN1 promoter, while sharing similar cis element composition with the rice CRN1 promoter. BeCRN1 is localized within the chloroplast, and it is strongly induced by senescence signals. Although constitutive overexpression of BeCRN1 in crn1 has reversed the stay-green phenotype of crn1 to the wild type phenotype, its promoter has failed to do so with AtCRN1 following dark treatment. The efficiency of BeCRN1p is only about one-third of that of the AtCRN1 promoter.     

The role of ABC efflux pump,Rv1456c-Rv1457c-Rv1458c,from <Emphasis Type="Italic">Mycobacterium tuberculosis</Emphasis> clinical isolates in China

Recently the ATP-binding cassette (ABC) efflux pumps have been proved to be a major component of drug resistance in Mycobacterium tuberculosis. The objective of this study was to investigate the expression profiles of Rv1456c-Rv1457c-Rv1458c efflux system in clinical isolates of M. tuberculosis and its involvement in drug-resistance mechanisms. Significantly increased mRNA expression of Rv1456c, Rv1457c, and Rv1458c appeared among the clinical isolates (P < 0.05), which are resistant to at least one of the four first-line drugs including rifampin, isoniazid, streptomycin, and ethambutol. In addition, overexpression of this efflux system was more frequently found in multidrug-resistant and extensively drug-resistant M. tuberculosis strains. Therefore, Rv1456c-Rv1457c-Rv1458c efflux pumps may play an important role in drug resistance of treatment of M. tuberculosis. Further investigation of this gene may lead to the development of countermeasures against M. tuberculosis drug resistance.     

Activation of the Ano1 (TMEM16A) chloride channel by calcium is not mediated by calmodulin

The Ca²⁺-activated Cl channel anoctamin-1 (Ano1; Tmem16A) plays a variety of physiological roles, including epithelial fluid secretion. Ano1 is activated by increases in intracellular Ca²⁺, but there is uncertainty whether Ca²⁺ binds directly to Ano1 or whether phosphorylation or additional Ca²⁺-binding subunits like calmodulin (CaM) are required. Here we show that CaM is not necessary for activation of Ano1 by Ca²⁺ for the following reasons. (a) Exogenous CaM has no effect on Ano1 currents in inside-out excised patches. (b) Overexpression of Ca²⁺-insensitive mutants of CaM have no effect on Ano1 currents, whereas they eliminate the current mediated by the small-conductance Ca²⁺-activated K⁺ (SK2) channel. (c) Ano1 does not coimmunoprecipitate with CaM, whereas SK2 does. Furthermore, Ano1 binds very weakly to CaM in pull-down assays. (d) Ano1 is activated in excised patches by low concentrations of Ba²⁺, which does not activate CaM. In addition, we conclude that reversible phosphorylation/dephosphorylation is not required for current activation by Ca²⁺ because the current can be repeatedly activated in excised patches in the absence of ATP or other high-energy compounds. Although Ano1 is blocked by the CaM inhibitor trifluoperazine (TFP), we propose that TFP inhibits the channel in a CaM-independent manner because TFP does not inhibit Ano1 when applied to the cytoplasmic side of excised patches. These experiments lead us to conclude that CaM is not required for activation of Ano1 by Ca²⁺. Although CaM is not required for channel opening by Ca²⁺, work of other investigators suggests that CaM may have effects in modulating the biophysical properties of the channel.