Crocodile defensin (CpoBD13) antifungal activity via pH-dependent phospholipid targeting and membrane disruption.

Crocodilians are an order of ancient reptiles that thrive in pathogen-rich environments. The ability to inhabit these harsh environments is indicative of a resilient innate immune system. Defensins, a family of cysteine-rich cationic host defence peptides, are a major component of the innate immune systems of all plant and animal species, however crocodilian defensins are poorly characterised.

Neurotoxic amyloidogenic peptides in the proteome of SARS-COV2: potential implications for neurological symptoms in COVID-19.

COVID-19 is primarily known as a respiratory disease caused by SARS-CoV-2. However, neurological symptoms such as memory loss, sensory confusion, severe headaches, and even stroke are reported in up to 30% of cases and can persist even after the infection is over (long COVID). These neurological symptoms are thought to be produced by the virus infecting the central nervous system, however we don't understand the molecular mechanisms triggering them.

Cytotoxic properties of rhenium(I) tricarbonyl complexes of N-heterocyclic carbene ligands.

A family of eight rhenium(I) tricarbonyl complexes bearing pyridyl-imidazolylidene or bis-imidazolylidene ligands in combination with a series of -acetyl amino acids ligands (glycine, isoleucine, and proline) and an acetate have been synthesised and characterised. These complexes are of interest as potential anticancer agents, where the oxygen bound carboxylate ligand can exchange with water giving rise to cytotoxic cationic complexes. The pseudo-first-order aquation rate constants for the complexes were evaluated using H NMR time-course experiments and for the complexes of the bis-imidazolylidene ligand the average value was 6.

Human β-Defensin 2 (HBD-2) Displays Oncolytic Activity but Does Not Affect Tumour Cell Migration.

Defensins form an integral part of the cationic host defence peptide (HDP) family, a key component of innate immunity. Apart from their antimicrobial and immunomodulatory activities, many HDPs exert multifaceted effects on tumour cells, notably direct oncolysis and/or inhibition of tumour cell migration. Therefore, HDPs have been explored as promising anticancer therapeutics.

Combating Human Pathogens and Cancer by Targeting Phosphoinositides and Their Metabolism.

Pathogens and tumor cells have adopted various adept strategies to evade immunosurveillance and promote their growth and survival. There has been substantial evidence demonstrating phosphoinositide lipids and their modifying enzymes as essential host targets that are often hijacked by pathogens and tumor cells. The common dependence of pathogen virulence and tumor progression on phosphoinositides presents an exciting disease-combating potential, particularly combinatorial therapeutics.

Phosphoinositides: multipurpose cellular lipids with emerging roles in cell death.

Phosphorylated phosphatidylinositol lipids, or phosphoinositides, critically regulate diverse cellular processes, including signalling transduction, cytoskeletal reorganisation, membrane dynamics and cellular trafficking. However, phosphoinositides have been inadequately investigated in the context of cell death, where they are mainly regarded as signalling secondary messengers. However, recent studies have begun to highlight the importance of phosphoinositides in facilitating cell death execution.