The role of dietary antioxidants in type 2 diabetes and neurodegenerative disorders: An assessment of the benefit profile.

Healthy diet is vital to cellular health. The human body succumbs to numerous diseases which afflict severe economic and psychological burdens on the patient and family. Oxidative stress is a possible crucial regulator of various pathologies, including type 2 diabetes and neurodegenerative diseases.

Molecular Analysis and Conformational Dynamics of Human MC4R Disease-Causing Mutations.

Obesity is a chronic disease with increasing cases among children and adolescents. Melanocortin 4 receptor (MC4R) is a G protein-coupled transporter involved in solute transport, enabling it to maintain cellular homeostasis. MC4R mutations are associated with early-onset severe obesity, and the identification of potential pathological variants is crucial for the clinical management of patients with obesity.

Plasma Bead Entrapped Liposomes as a Potential Drug Delivery System to Combat Fungal Infections.

Fibrin-based systems offer promises in drug and gene delivery as well as tissue engineering. We established earlier a fibrin-based plasma beads (PB) system as an efficient carrier of drugs and antigens. In the present work, attempts were made to further improve its therapeutic efficacy exploiting innovative ideas, including the use of plasma alginate composite matrices, proteolytic inhibitors, cross linkers, and dual entrapment in various liposomal formulations.

Melanocortin-4 receptor complexity in energy homeostasis,obesity and drug development strategies.

The melanocortin-4 receptor (MC4R) has been critically investigated for the past two decades, and novel findings regarding MC4R signalling and its potential exploitation in weight loss therapy have lately been emphasized. An association between MC4R and obesity is well established, with disease-causing mutations affecting 1% to 6% of obese patients. More than 200 MC4R variants have been reported, although conflicting results as to their effects have been found in different cohorts.

The role of amyloids in Alzheimer's and Parkinson's diseases.

With varying clinical symptoms, most neurodegenerative diseases are associated with abnormal loss of neurons. They share the same common pathogenic mechanisms involving misfolding and aggregation, and these visible aggregates of proteins are deposited in the central nervous system. Amyloid formation is thought to arise from partial unfolding of misfolded proteins leading to the exposure of hydrophobic surfaces, which interact with other similar structures and give rise to form dimers, oligomers, protofibrils, and eventually mature fibril aggregates.

Mechanisms of amyloid proteins aggregation and their inhibition by antibodies, small molecule inhibitors, nano-particles and nano-bodies.

Protein misfolding and aggregation can be induced by a wide variety of factors, such as dominant disease-associated mutations, changes in the environmental conditions (pH, temperature, ionic strength, protein concentration, exposure to transition metal ions, exposure to toxins, posttranslational modifications including glycation, phosphorylation, and sulfation). Misfolded intermediates interact with similar intermediates and progressively form dimers, oligomers, protofibrils, and fibrils. In amyloidoses, fibrillar aggregates are deposited in the tissues either as intracellular inclusion or extracellular plaques (amyloid).

Ligand decorated biodegradable nanomedicine in the treatment of cancer.

Cancer is one of the major global health problems, responsible for the second-highest number of deaths. The genetic and epigenetic changes in the oncogenes or tumor suppressor genes alter the regulatory pathways leading to its onset and progression. Conventional methods are used in appropriate combinations for the treatment.

Nanoparticle formulations in the diagnosis and therapy of Alzheimer's disease.

Alzheimer's disease (AD) is one of the most common age-related diseases that occurs because of the deposition of amyloid fibrils in a form of extracellular plaques containing β-amyloid peptide (Aβ) and tangles are found as intracellular deposit in the brain made up of twisted strands of aggregated microtubule binding protein. Scores of small molecule inhibitors have been designed for the treatment of AD. However some of these drugs cannot pass through the brain-blood-barrier (BBB).

Ionic gradient liposomes: Recent advances in the stable entrapment and prolonged released of local anesthetics and anticancer drugs.

Liposomes have established themselves as great pharmaceutical carriers over the past three decades. These phospholipid vesicular systems have undergone great technical advances including remote drug loading, targeted delivery, and combinatorial drug therapy. Ionic gradient liposomes (IGL) necessitates active loading of the drug in preformed vesicles exhibiting a transmembrane pH or ion gradient, with a low intra liposome pH (∼ 4-5), and a high outside pH (∼7-8).

New paradigm in ankyrin repeats: Beyond protein-protein interaction module.

Classically, ankyrin repeat (ANK) proteins are built from tandems of two or more repeats and form curved solenoid structures that are associated with protein-protein interactions. These are short, widespread structural motif of around 33 amino acids repeats in tandem, having a canonical helix-loop-helix fold, found individually or in combination with other domains. The multiplicity of structural pattern enables it to form assemblies of diverse sizes, required for their abilities to confer multiple binding and structural roles of proteins.

Emerging Targets and Latest Proteomics Based Therapeutic Approaches in Neurodegenerative Diseases.

Protein homeostasis (proteostasis) is achieved by the interplay among various components and pathways inside a cell. Dysfunction in proteostasis leads to protein misfolding and aggregation which is ubiquitously associated with many neurodegenerative disorders, although the exact role of these aggregate in the pathogenesis remains unknown. Many neurodegenerative diseases, including Alzheimer's disease, Parkinson's disease, Huntington's disease, amyotrophic lateral sclerosis, and others are characterized by the conversion of specific protein aggregates into protein inclusions and/or plaques in degenerating brains.

Effective antigen delivery via dual entrapment in erythrocytes and autologous plasma beads.

Fibrin-based polymeric systems have now emerged as efficient carriers of drugs, growth factors, genes, and cells. Earlier, we have reported fibrin-based plasma beads (PB), prepared from clotted whole plasma, as an efficient system for the controlled release of entrapped therapeutics. In the present study, we investigate the dual entrapment in erythrocytes and PB, as potential particulate antigen delivery system in rabbit and mice, with yeast invertase as the model antigen.

Structure of amyloid oligomers and their mechanisms of toxicities: Targeting amyloid oligomers using novel therapeutic approaches.

Protein misfolding is one of the leading causes of amyloidoses. Protein misfolding occurs from changes in environmental conditions and host of other factors, including errors in post-translational modifications, increase in the rate of degradation, error in trafficking, loss of binding partners and oxidative damage. Misfolding gives rise to the formation of partially unfolded or misfolded intermediates, which have exposed hydrophobic residues and interact with complementary intermediates to form oligomers and consequently protofibrils and fibrils.

Vaccine potential of plasma bead-based dual antigen delivery system against experimental murine candidiasis.

The development of prophylactic anti-candidal vaccine comprising the Candida albicans cytosolic proteins (Cp) as antigen and plasma beads (PB) prepared from plasma as sustained delivery system, is described. The immune-prophylactic potential of various PBs-based dual antigen delivery systems, co-entrapping Cp pre-entrapped in PLGA microspheres were tested in the murine model. Induction of cell mediated immunity was measured by assaying DTH and NO production as well as in vitro proliferation of lymphocytes derived from the immunized animals.

Fibrin matrices: The versatile therapeutic delivery systems.

Fibrin sealants, that have been employed for over a century by surgeons to stop post surgery bleeding, are finding novel applications in the controlled delivery of antibiotics and several other therapeutics. Fibrinogen can be easily purified from blood plasma and converted by thrombolysis to fibrin that undergoes spontaneous aggregation to form insoluble clot. During the gelling, fibrin can be formulated into films, clots, threads, microbeads, nanoconstructs and nanoparticles.