Cu(II) Specifically Disassembles Insulin Amyloid Nanostructures via Direct Interaction with Cross-ß Fibrils.

In this work, we demonstrate direct evidence of the antiamyloid potential of Cu(II) ions against amyloid formation of insulin. The Cu(II) ions were found to efficiently disassemble the preformed amyloid nanostructures into soluble species and suppress monomer fibrillation under aggregation-prone conditions. The direct interaction of Cu(II) ions with the cross-ß structure of amyloid fibrils causes substantial disruption of both the interchain and intrachain interactions, predominantly the H-bonds and hydrophobic contacts. Further, the Cu(II) ions show a strong affinity for the aggregation-prone conformers of the protein and inhibit their spontaneous self-assembly. These results reveal the possible molecular mechanism for the antiamyloidogenic potential of Cu(II) which could be important for the development of metal-ion specific therapeutic strategies against amyloid linked complications.

A shift in focus towards precision oncology, driven by revolutionary nanodiagnostics; revealing mysterious pathways in colorectal carcinogenesis.

Multiple molecular mechanisms contribute to the development of colorectal cancer (CRC), with chromosomal instability (CIN) playing a significant role. CRC is influenced by mutations in several important genes, including APC, TP53, KRAS, PIK3CA, BRAF, and SMYD4. The three molecular subtypes of this disease are CIN, MSI-H, and CIMP (CpG-island phenotype). p53 dysfunction and aberrant Wnt signalling are common characteristics of CRC carcinogenesis. Despite advances in conventional therapy, metastatic CRC remains difficult to treat due to toxicity and resistance. Theranostics for cancer could significantly benefit from nanotechnology, as it would enable more targeted, individualised care with fewer side effects. Utilising functionalized nanoparticles has enabled MRI-guided gene therapy, magnetic hyperthermia, chemotherapy, immunotherapy, and photothermal/photodynamic therapy, thereby radically modifying the way cancer is treated. Active targeting using ligands or peptides on nanoparticles improves the delivery of drugs to cancer cells. Nanostructures such as drug peptide conjugates, chitosan nanoparticles, gold nanoparticles, carbon nanotubes, mesoporous silica-based nanoparticles, silver nanoparticles, hybrid lipid-polymer nanoparticles, iron oxide nanoparticles, and quantum dots may enable targeted drug delivery and enhanced therapeutic efficacy against CRC. Nanomedicines are presently being evaluated in clinical trials for the treatment of colorectal cancer, with the promise of more effective and individualised therapies. This article examines current nanomedicine patents for CRC, including the work of Delta-Fly, Merrimack, and Pfenning, Meaning & Partner, among others. In terms of future nanomedicine research and development, ligand production, particle size, and clearance are crucial factors. Lastly, the numerous nanostructures utilized in nanomedicine for targeted drug administration and diagnostics indicate optimistic prospects for enhancing CRC treatment. The successes of nanomedicine research and development for existing colon cancer treatments are also highlighted in this review.

Exploring the Therapeutic Potential of Anticancer Heterocyclic Compounds: Role in Nanoscale Pharmacotherapy.

There are a large number of pharmaceutical products in the market containing heterocyclic compounds. Heterocyclic compounds are explored in the field of therapeutics due to their unique physicochemical and pharmacological properties. A large number of heterocyclic compounds existing in the pharmaceutical market have marked anticancer activity and many of them are under research investigations to treat different types of cancers. Anticancer heterocyclic compounds show many shortcomings such as other anticancer agents in bioavailability and site-specific drug delivery resulting in toxicity and decreased patient compliance. These shortcomings can be eliminated by applying the principles of nanotechnology. The present review discloses the biochemical mechanism of action, different biological targets, intrinsic shortcomings, and structure-activity relationships of anticancer heterocyclic compounds. Furthermore, the role of different nanocarrier systems in selective biological targeting and alteration of pharmacokinetic and pharmacodynamic characteristics of anticancer heterocyclic compounds will be discussed in detail.

Basic Concepts and Clinical Outcomes of Drug-Eluting Balloons for Treatment of Coronary Artery Disease: An Overview.

The technology of percutaneous coronary intervention for atherosclerotic coronary artery disease has evolved considerably since its inception. Though Drug-Eluting Stent (DES) reduces the rate of restenosis, long-term safety outcomes and persistent restenosis in complex lesion subset remain area of concern. Recently, Drug-Eluting Balloon (DEB) represents a novel treatment strategy for atherosclerotic coronary artery disease. DEB demonstrated its added value in preclinical studies. Inspired by these results, several clinical trials particularly in complex lesion subsets have been started to explore the value of this novel treatment strategy in a broader range of lesions. This review would summarise material compositions and different characteristics and clinical outcomes of currently available DEB.

Intermittent drug techniques for schizophrenia.

Intermittent drug techniques refer to the "use of medication only during periods of incipient relapse or symptom exacerbation rather than continuously." The aim is to reduce the risk of adverse effects of antipsychotics by "reducing long-term medication exposure for patients who are receiving maintenance treatment while limiting risk of relapse," with a further goal of improving social functioning resulting from the reduction of antipsychotic-induced side effects. We reviewed the effects of different intermittent drug techniques compared with maintenance treatment in people with schizophrenia or related disorders. We searched The Cochrane Schizophrenia Group Trials Register (April 2012) and supplemented this by contacting relevant study authors and manually searching reference lists. All relevant randomized controlled trials (RCTs) were included.Of 241 records retrieved by the search, 17 trials were included. Homogenous data demonstrated that instances of relapse were significantly higher in people receiving any intermittent drug treatment in the long term (n=436, 7 RCTs, RR=2.46, 95% CI=1.70- to 3.54). Intermittent treatment was shown to be more effective than placebo, however, and demonstrated that significantly less people receiving intermittent antipsychotics experienced full relapse by medium term (n=290, 2 RCTs, RR=0.37, 95% CI=0.24-0.58). Intermittent antipsychotic treatment is not as effective as continuous, maintained antipsychotic therapy for preventing relapse in people with schizophrenia. It does seem, however, significantly better than no treatment.