S. Sivakami scite author profile

Nanomaterials have been used widely for delivery of therapeutic agents. Protein-nanoparticle (NP) complexes have gained importance as vehicles for targeted drug delivery due to increased ease of administration, stability and half-life of drug, and reduced toxic side effects. Designing of phospholipid-bovine serum albumin (BSA) complexes and stealth NPs with BSA has paved the way for drug delivery carriers with prolonged blood circulation times. Preformed albumin corona has shown to decrease non-specific association and thereby reduce the clearance rate. Albumin corona has enabled the localization of drug carriers in specific tissues such as liver and heart, thus regulating biodistribution. Tailored albumin-NP conjugates have also enabled controlled degradation of NP and drug release. However, the binding of albumin with NP is associated with conformational and functional modulations in protein as observed with silver, gold and superparamagnetic iron oxide NPs. In this review, we highlight the various potential albumin-NP hybrids as nano drug carriers.

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Glucose, glycation and aging

George

Sivakami

2004

Biogerontology

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Glycation, a deleterious form of post-translational modification of macromolecules has been linked to diseases such as diabetes, cataract, Alzheimer's, dialysis related amyloidosis (DRA), atherosclerosis and Parkinson's as well as physiological aging. This review attempts to summarize the data on glycation in relation to its chemistry, role in macromolecular damage and disease, dietary sources and its intervention. Macromolecular damage and biochemical changes that occur in aging and age-related disorders point to the process of glycation as the common event in all of them. This is supported by the fact that several age-related diseases show symptoms manifested by hyperglycemia. Free radical mediated oxidative stress is also known to arise from hyperglycemia. There is evidence to indicate that controlling hyperglycemia by antidiabetic biguanides prolongs life span in experimental animals. Caloric restriction, which appears to prolong life span by bringing about mild hypoglycemia and increased insulin sensitivity further strengthens the idea that glucose via glycation is the primary damaging molecule.

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Degradation of Chlorpyrifos by an alkaline phosphatase from the cyanobacterium Spirulina platensis

2010

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Spirulina is a photosynthetic, filamentous, spiral-shaped, multicellular, blue-green microalga. The two most important species are Spirulina maxima and Spirulina platensis. Spirulina is considered an excellent food, lacking toxicity and having corrective properties against viral attacks, anemia, tumor growth and malnutrition. We have observed that cultures of Spirulina platensis grow in media containing up to 80 ppm of the organophosphorous pesticide, Chlorpyrifos. It was found to be due to an alkaline phosphatase (ALP) activity that was detected in cell free extracts of Spirulina platensis. This activity was purified from the cell free extracts using ammonium sulphate precipitation and gel filtration and shown to belong to the class of EC 3.1.3.1 ALP. The purified enzyme degrades 100 ppm Chlorpyrifos to 20 ppm in 1 h transforming it into its primary metabolite 3, 5, 6-trichloro-2-pyridinol. This is the first report of degradation of Chlorpyrifos by Spirulina platensis whose enzymic mechanism has been clearly identified. These findings have immense potential for harnessing Spirulina platensis in bioremediation of polluted ecosystems.

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S. Sivakami

Antihyperglycemic effects of three extracts from Momordica charantia

Oxidative damage and altered antioxidant enzyme activities in the small intestine of streptozotocin-induced diabetic rats

Albumin corona on nanoparticles – a strategic approach in drug delivery

Glucose, glycation and aging

Degradation of Chlorpyrifos by an alkaline phosphatase from the cyanobacterium Spirulina platensis

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