Biosynthesized tumor acidity and MMP dual-responsive plant toxin gelonin for robust cancer therapy.

Among all kinds of anticancer agents, small molecule drugs produce an unsatisfactory therapeutic effect due to the lack of selectivity, notorious drug resistance and side effects. Therefore, researchers have begun to pay extensive attention to macromolecular drugs with high efficacy and specificity. As a plant toxin, gelonin exerts potent antitumor activity inhibiting intracellular protein synthesis.

Molecularly engineered tumor acidity-responsive plant toxin gelonin for safe and efficient cancer therapy.

Due to the unsatisfactory therapeutic efficacy and inexorable side effects of small molecule antineoplastic agents, extensive efforts have been devoted to the development of more potent macromolecular agents with high specificity. Gelonin is a plant-derived protein toxin that exhibits robust antitumor effect via inactivating ribosomes and inhibiting protein synthesis. Nonetheless, its poor internalization ability to tumor cells has compromised the therapeutic promise of gelonin.

Characteration of a novel arylesterase from probiotics GG with the preference for medium- and long-chain -Nitrophenyl esters.

Unlabelled: We prospected a novel arylesterase LggEst from the probiotics s GG by genome mining strategy, and characterized the enzymatic properties in detail. Biochemical characterization revealed that arylesterase LggEst presented high activity at a wide range of temperatures from 25 to 65 °C with maximum activity at 50 °C. LggEst maintained high activity in the pH range from 5.

Integration of Polylactide into Polyethylenimine Facilitates the Safe and Effective Intracellular siRNA Delivery.

Polyethylenimine (PEI) is a gold standard polymer with excellent transfection efficacy, yet its severe toxicity and nondegradability hinders its therapeutic application as a gene delivery vector. To tackle this problem, herein we incorporated the biodegradable polylactide (PLA) into the branched PEI by synthesizing a PEI-PLA copolymer via a facile synthetic route. PLA modification significantly improved the cytocompatibility of PEI, PEI-PLA copolymer showed much higher cell viability than PEI as verified in three different human cancer cell lines (HCT116, HepG2 and SKOV3).

Target Discovery of Novel α-L-Rhamnosidases from Human Fecal Metagenome and Application for Biotransformation of Natural Flavonoid Glycosides.

As a green and powerful tool, biocatalysis has emerged as a perfect alternative to traditional chemistry. The bottleneck during process development is discovery of novel enzymes with desired properties and independent intellectual property. Herein, we have successfully bioprospected three novel bacterial α-L-rhamnosidases from human fecal metagenome using a combinatorial strategy by high-throughput de novo sequencing combined with in silico searching for catalytic key motifs.

A spectrophotometric method for high-throughput screening of α-l-rhamnosidase activity on rutin coupled with a β-d-glucosidase assay.

α-l-Rhamnosidase may biotransform rutin into isoquercetin with better bioavailability and bioactivity. To date, the high-throughput screening for the activity of α-l-rhamnosidases on rutin could not be achieved. Herein, based on the spectral differences between rutin and its aglycone quercetin in alkaline pH 10.

High-yield expression in , biophysical characterization, and biological evaluation of plant toxin gelonin.

Gelonin is a plant toxin that exerts potent cytotoxic activity by inactivation of the 60S ribosomal subunit. The high-level expression of soluble gelonin still remains a great challenge and there was no detailed biophysical analysis of gelonin from () yet. In this study, the soluble and high-yield expression of recombinant gelonin (rGel) was achieved in BL21 (DE3) for the first time, with a yield of 6.

Characterization of a glycoside hydrolase family 78 α-l-rhamnosidase from VPI-5482 and identification of functional residues.

A putative glycoside hydrolase family 78 α-l-rhamnosidase BtRha78A from VPI-5482 was heterologously over-expressed in . Enzymatic properties of recombinant BtRha78A were characterized in detail. Recombinant BtRha78A might efficiently hydrolyze -nitrophenyl α-l-rhamnopyranoside.

Robust Anticancer Efficacy of a Biologically Synthesized Tumor Acidity-Responsive and Autophagy-Inducing Functional Beclin 1.

As a potent autophagy inducer, Beclin 1 is essential for the initiation of autophagic cell death, and triggering extensive autophagy by targeted delivery of Beclin 1 to tumors has enormous potential to inhibit tumor growth. Yet, the therapeutic application of Beclin 1 is hampered by its inability to internalize into cells and nonselective biodistribution in vivo. To tackle this challenge, we employed a novel Beclin 1 delivery manner by constructing a functional protein (Trx-pHLIP-Beclin 1, TpB) composed of a thioredoxin (Trx) tag, a pH low insertion peptide (pHLIP), and an evolutionarily conserved motif of Beclin 1.

A Novel Doxorubicin Prodrug with GRP78 Recognition and Nucleus-Targeting Ability for Safe and Effective Cancer Therapy.

Glucose-regulated protein of 78 kDa (GRP78) has become an attractive and novel target for tumor therapy. Design and construction of powerful delivery systems that could efficiently transport doxorubicin (DOX) to a tumor-cell nucleus remains a formidable challenge for improving the tumor therapeutic index and mitigating side effects to normal tissues. Herein, a novel doxorubicin prodrug (NDP) with GRP78 recognition and nucleus-targeting ability was synthesized by a facile chemical route.

[Effects of Different Vegetation Types and Reclamation Years on Soil Bacterial Community Structure in Reclaimed Mine Areas].

Effects of different vegetation types (, , , and ) and reclamation years (15 and 20 years) on soil bacterial community structure in reclaimed Antaibao opencast mine areas were investigated using polymerase chain reaction-denaturing gradient gel electrophoresis (PCR-DGGE) and clone sequencing. For 20-year reclaimed soils, the significantly highest and lowest bacterial diversity were found in and stand, respectively, whereas no significant differences were found between the other three vegetation types. Under 15-year plantations, soil bacterial diversity index of was significantly higher than that of .

Design of hyperthermophilic lipase chimeras by key motif-directed recombination.

Recombination of diverse natural evolved domains within a superfamily offers greater opportunity for enzyme function leaps. How to recombine protein modules from distant parents with less disruption in cross-interfaces is a challenging issue. Here, we identified the existence of a key motif, the sequence VVSVN(D)YR, within a structural motif ψ loop in the α/β-hydrolase fold superfamily, by using a MEME server and the PROMOTIF program.

Role of the NC-loop in catalytic activity and stability in lipase from Fervidobacterium changbaicum.

Flexible NC-loops between the catalytic domain and the cap domain of the α/β hydrolase fold enzymes show remarkable diversity in length, sequence, and configuration. Recent investigations have suggested that the NC-loop might be involved in catalysis and substrate recognition in many enzymes from the α/β hydrolase fold superfamily. To foster a deep understanding of its role in catalysis, stability, and divergent evolution, we here systemically investigated the function of the NC-loop (residues 131-151) in a lipase (FClip1) from thermophilic bacterium Fervidobacterium changbaicum by loop deletion, alanine-scanning mutagenesis and site-directed mutagenesis.