Platelet factors are induced by longevity factor klotho and enhance cognition in young and aging mice.

Platelet factors regulate wound healing and can signal from the blood to the brain. However, whether platelet factors modulate cognition, a highly valued and central manifestation of brain function, is unknown. Here we show that systemic platelet factor 4 (PF4) permeates the brain and enhances cognition.

Longevity factor klotho enhances cognition in aged nonhuman primates.

Cognitive dysfunction in aging is a major biomedical challenge. Whether treatment with klotho, a longevity factor, could enhance cognition in human-relevant models such as in nonhuman primates is unknown and represents a major knowledge gap in the path to therapeutics. We validated the rhesus form of the klotho protein in mice showing it increased synaptic plasticity and cognition.

Schizophrenia-associated dysbindin modulates axonal mitochondrial movement in cooperation with p150.

Mitochondrial movement in neurons is finely regulated to meet the local demand for energy and calcium buffering. Elaborate transport machinery including motor complexes is required to deliver and localize mitochondria to appropriate positions. Defects in mitochondrial transport are associated with various neurological disorders without a detailed mechanistic information.

DISC1 Modulates Neuronal Stress Responses by Gate-Keeping ER-Mitochondria Ca Transfer through the MAM.

A wide range of Ca-mediated functions are enabled by the dynamic properties of Ca, all of which are dependent on the endoplasmic reticulum (ER) and mitochondria. Disrupted-in-schizophrenia 1 (DISC1) is a scaffold protein that is involved in the function of intracellular organelles and is linked to cognitive and emotional deficits. Here, we demonstrate that DISC1 localizes to the mitochondria-associated ER membrane (MAM).

Regulation of the actin cytoskeleton by the Ndel1-Tara complex is critical for cell migration.

Nuclear distribution element-like 1 (Ndel1) plays pivotal roles in diverse biological processes and is implicated in the pathogenesis of multiple neurodevelopmental disorders. Ndel1 function by regulating microtubules and intermediate filaments; however, its functional link with the actin cytoskeleton is largely unknown. Here, we show that Ndel1 interacts with TRIO-associated repeat on actin (Tara), an actin-bundling protein, to regulate cell movement.

Disrupted-in-schizophrenia 1 (DISC1) and Syntaphilin collaborate to modulate axonal mitochondrial anchoring.

In neuronal axons, the ratio of motile-to-stationary mitochondria is tightly regulated by neuronal activation, thereby meeting the need for local calcium buffering and maintaining the ATP supply. However, the molecular players and detailed regulatory mechanisms behind neuronal mitochondrial movement are not completely understood. Here, we found that neuronal activation-induced mitochondrial anchoring is regulated by Disrupted-in-schizophrenia 1 (DISC1), which is accomplished by functional association with Syntaphilin (SNPH).

Disrupted-in-schizophrenia 1 (DISC1) regulates dysbindin function by enhancing its stability.

Dysbindin and DISC1 are schizophrenia susceptibility factors playing roles in neuronal development. Here we show that the physical interaction between dysbindin and DISC1 is critical for the stability of dysbindin and for the process of neurite outgrowth. We found that DISC1 forms a complex with dysbindin and increases its stability in association with a reduction in ubiquitylation.

Molecular links between mitochondrial dysfunctions and schizophrenia.

Schizophrenia is a complex neuropsychiatric disorder with both neurochemical and neurodevelopmental components in the pathogenesis. Growing pieces of evidence indicate that schizophrenia has pathological components that can be attributable to the abnormalities of mitochondrial function, which is supported by the recent finding suggesting mitochondrial roles for Disrupted-in-Schizophrenia 1 (DISC1). In this minireview, we briefly summarize the current understanding of the molecular links between mitochondrial dysfunctions and the pathogenesis of schizophrenia, covering recent findings from human genetics, functional genomics, proteomics, and molecular and cell biological approaches.

Membranolytic antifungal activity of arenicin-1 requires the N-terminal tryptophan and the beta-turn arginine.

To determine the structural requirements of arenicin-1 in exerting antifungal activity, a truncated peptide with an N-terminal deletion and a peptide with an Ala substitution for an Arg in the beta-turn region were characterised by comparison to arenicin-1. The antifungal activities of the analogues were 25-50% lower than arenicin-1. Trp fluorescence and circular dichroism spectroscopy showed that Trp in the N-terminus contributed to peptide penetration and Arg in the beta-turn to conformational transition.

Anti-Candida property of a lignan glycoside derived from Styrax japonica S. et Z. via membrane-active mechanisms.

Styraxjaponoside C was investigated with respect to its antifungal activity and mechanisms of action. Devoid of hemolytic activity, Styraxjaponoside C demonstrated an antifungal effect against the human pathogenic yeast Candida albicans in an energy-independent manner. To characterize the mechanisms of the antifungal activity of Styraxjaponoside C, fluorescence analysis with membrane probe 1,6-diphenyl-1,3,5-hexatriene, and flow cytometric analysis on C.

Melittin induces apoptotic features in Candida albicans.

Melittin is a well-known antimicrobial peptide with membrane-active mechanisms. In this study, it was found that Melittin exerted its antifungal effect via apoptosis. Candida albicans exposed to Melittin showed the increased reactive oxygen species (ROS) production, measured by DHR-123 staining.

Antifungal effect with apoptotic mechanism(s) of Styraxjaponoside C.

The antifungal effects and mechanisms of Styraxjaponoside C were investigated. Styraxjaponoside C was active against several human pathogens, including Candida albicans. Styraxjaponoside C induced a series of cellular changes characteristic of apoptosis in C.

Cell selectivity-membrane phospholipids relationship of the antimicrobial effects shown by pleurocidin enantiomeric peptides.

Previously, we investigated the antimicrobial properties of pleurocidin (Ple) enantiomers. Our studies showed that the L-enantiomer exhibited about a 2-16 fold more potent activity against bacterial strains as compared to that of the D-enantiomer. However, fungal strains were about two-fold more susceptible to the D-enantiomer than to the L-enantiomer.

Fungicidal effect of antimicrobial peptide arenicin-1.

Arenicin-1 is a 21-residue peptide which was derived from Arenicola marina. In this study, we investigated the antifungal effects and its mechanism of action towards human pathogenic fungi. Arenicin-1 exerted remarkable fungicidal activity with both energy-dependent and salt-insensitive manners.