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1.
J Basic Microbiol ; 63(3-4): 326-339, 2023 Mar.
Artículo en Inglés | MEDLINE | ID: mdl-36074980

RESUMEN

Vermicomposting involves enrichment of microorganisms that are able to resist higher temperatures and perform simultaneous degradation of lignocellulose, and therefore, such microbial communities are a potential source of cellulolytic enzymes. This study aimed to optimize the production of a processive cellulase by Parageobacillus thermoglucosidasius NBCB1 isolated from vermicompost, under submerged fermentation of rice straw and to characterize the purified enzyme for industrial suitability. Cellulase production in basal medium (7.27 IU/mg) was enhanced to 61 IU/mg by One Factor At a Time approach, which was further improved to 78.46 IU/mg by genetic algorithm based artificial neural networking. The cellulase PtCel1 purified from bacterial culture showed a molecular weight of ≈33 kD, had activity on both crystalline (305 IU/mg) and amorphous (184 IU/mg) cellulose as substrates. It had pH and temperature optima of 5.5°C and 60°C, respectively, and retained 100% activity upon preincubation at 60°C for 1 h indicating thermostability. PtCel1 was tolerant to sodium dodecyl sulfate, glucose and mannose; and the various metal chlorides, such as sodium, magnesium, calcium and zinc, acted as inducers giving 77.54%, 45.15%, 61.10%, and 169.14% augmentation of activity, respectively. Its efficiency on cellulosic substrates and robustness against aforementioned chemical and thermal environment makes it suitable for industrial applications.


Asunto(s)
Celulasa , Celulasa/metabolismo , Celulosa/metabolismo , Fermentación , Temperatura
2.
ACS Appl Bio Mater ; 7(2): 1214-1228, 2024 02 19.
Artículo en Inglés | MEDLINE | ID: mdl-38326023

RESUMEN

Breast cancer is the most prevalent and aggressive type of cancer, causing high mortality rates in women globally. Many drawbacks and side effects of the current chemotherapy force us to develop a robust chemotherapeutic system that can deal with off-target hazards and selectively combat cancer growth, invasiveness, and cancer-initiating cells. Here, a pH-responsive cross-linked nanocarrier (140-160 nm) endowed with poly-ß-thioester functionality (CBAPTL) has been sketched and fabricated for noncovalent firm encapsulation of anticancer drug, parthenolide (PTL) at physiological pH (7.4), which enables sustain release of PTL at relevant endosomal pH (∼5.0-5.3). For this, a bolaamphiphilic molecule integrated with ß-thioester and acrylate functionality was synthesized to fabricate the pH-responsive poly-ß-thioester-based cross-linked nanocarrier via Michael addition click reactions in water. The poly-ß-thioester functionality of CBAPTL hydrolyzes at endosomal acidic conditions, thus leading to the selective release of PTL inside the cancer cell. Cross-linked nanocarriers exhibit high serum stability, dilution insensitivity, and targeted cellular uptake at tumor microenvironment (TME), contrasting normal cells. In vitro study using human MCF-7 breast cancer cells demonstrated that CBAPTL exhibited selective cytotoxicity, reduced clonogenic potential, increased reactive oxygen species (ROS) generation, and arrested the progression of the cell cycle at the G0/G1 phase efficiently. CBAPTL induced apoptosis via downregulating pro-proliferative protein Bcl-2 and upregulating proapoptotic proteins p53, BAD, p21, and cleaved PARP-1. CBAPTL inhibited proliferating signaling by suppressing AKT phosphorylation and p38 expression. CBAPTL also blocked the invasion and migration of MCF-7 cells. CBAPTL effectively inhibits primary and secondary mammosphere formation, thereby preventing cancer-initiating cells' growth. Conversely, CBAPTL has negligible effect on human red blood cells (RBCs) and peripheral blood mononuclear cells (PBMCs). These findings highlight the superior efficacy of CBAPTL compared to PTL alone in suppressing cancer cell growth, inducing apoptosis, and preventing invasiveness of MCF-7 cells. Thus, CBAPTL could be considered a possible selective chemotherapeutic cargo against breast cancer without affecting normal cells.


Asunto(s)
Antineoplásicos , Neoplasias de la Mama , Sesquiterpenos , Femenino , Humanos , Leucocitos Mononucleares/metabolismo , Leucocitos Mononucleares/patología , Antineoplásicos/farmacología , Antineoplásicos/uso terapéutico , Apoptosis , Neoplasias de la Mama/tratamiento farmacológico , Neoplasias de la Mama/metabolismo , Microambiente Tumoral
3.
Biomed Pharmacother ; 156: 113801, 2022 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-36228369

RESUMEN

Chronic exposure to high glucose inside the human body helps in the progression of cancer by activating various signaling pathways including PI3K, Akt, mTOR, Ras, Raf, MAPK, and PKC. Hyperglycemia induces ROS and AGE production and decreases the functional activities of the cellular antioxidant system. By downregulating the prolyl hydroxylase, it stabilizes HIF-α leading to EMT-induced cancer progression and inhibition of apoptosis. High glucose level increases inflammation by creating a pro-inflammatory environment through the production of certain pro-inflammatory mediators (cytokines, chemokines, leukotrienes), and by influencing the recruitment of immune cells, leukocytes in the inflamed region. High glucose impairs the immune response and dysregulates ROS formation through the alteration in ETC and glutaminolysis which makes hyperglycemic patients more susceptible to viral infection. 2-DG is a modified form of D-glucose, that shows anticancer, anti-inflammatory, and anti-viral effects. It enters the cells through GLUT transporters and is converted into 2-deoxy-D-glucose-6-phosphate with the help of hexokinase. It inhibits the glycolysis, the TCA cycle, and the pentose phosphate pathway leading to ATP depletion. By downregulating glucose uptake and energy (ATP) production it halts various pathways responsible for cancer progression. It promotes the formation of anti-inflammatory mediators, and macrophage polarization, and also modulates immune function, which decreases inflammation. 2-DG inhibits PI3K/Akt/mTOR and upregulates the AMPK pathway, causing activation of the SIRT-4 gene that reduces lipogenesis, glucose uptake, nucleotide formation, and alters viral replication thus reducing the chances of infection.


Asunto(s)
Neoplasias , Virosis , Humanos , Glucosa/metabolismo , Fosfatidilinositol 3-Quinasas/metabolismo , Proteínas Proto-Oncogénicas c-akt/metabolismo , Especies Reactivas de Oxígeno/metabolismo , Serina-Treonina Quinasas TOR/metabolismo , Proliferación Celular , Glucólisis , Neoplasias/tratamiento farmacológico , Desoxiglucosa/farmacología , Inflamación , Adenosina Trifosfato/metabolismo
4.
Sci Rep ; 11(1): 3032, 2021 02 04.
Artículo en Inglés | MEDLINE | ID: mdl-33542396

RESUMEN

Rice (Oryza sativa L.) straw, an agricultural waste of high yield, is a sustainable source of fermentable sugars for biofuel and other chemicals. However, it shows recalcitrance to microbial catalysed depolymerization. We herein describe development of thermotolerant microbial consortium (RSV) from vermicompost with ability to degrade rice straw and analysis of its metagenome for bacterial diversity, and lignocellulolytic carbohydrate active enzymes (CAZymes) and their phylogenetic affiliations. RSV secretome exhibited cellulases and hemicellulases with higher activity at 60 °C. It catalysed depolymerization of chemical pretreated rice straw as revealed by scanning electron microscopy and saccharification yield of 460 mg g-1 rice straw. Microbial diversity of RSV was distinct from other compost habitats, with predominance of members of phyla Firmicutes, Proteobacteria and Bacteroidetes; and Pseudoclostridium, Thermoanaerobacterium, Chelatococcus and Algoriphagus being most abundant genera. RSV harboured 1389 CAZyme encoding ORFs of glycoside hydrolase, carbohydrate esterase, glycosyl transferase, carbohydrate binding module and auxiliary activity functions. Microorganisms of Firmicutes showed central role in lignocellulose deconstruction with importance in hemicellulose degradation; whereas representatives of Proteobacteria and Bacteroidetes contributed to cellulose and lignin degradation, respectively. RSV consortium could be a resource for mining thermotolerant cellulolytic bacteria or enzymes and studying their synergism in deconstruction of chemically pretreated rice straw.


Asunto(s)
Biomasa , Lignina/química , Metagenoma/genética , Consorcios Microbianos/genética , Agricultura , Bacteroidetes/enzimología , Biocombustibles , Celulasas/química , Celulasas/genética , Celulosa/química , Firmicutes/enzimología , Glicósido Hidrolasas/química , Glicósido Hidrolasas/genética , Humanos , Residuos Industriales , Lignina/genética , Oryza/química
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