Nursing research fellowship: building nursing research infrastructure in a hospital.

The largest private hospital in Hawaii was recently awarded Magnet Recognition, partly due to its exemplary nursing research culture. The hospital fostered and sustained a strong research environment through the establishment of a nursing institute, nursing research council, and, most recently, a nursing research fellowship. The authors describe the fellowship that was designed to educate nurses on the research process and enable nurses to lead research projects.

A prospective study of high-density lipoprotein cholesterol, cholesteryl ester transfer protein gene variants, and healthy aging in very old Japanese-american men.

Background: High-density lipoprotein cholesterol (HDL-C) and cholesteryl ester transfer protein (CETP) gene deficiency mutations that increase HDL-C levels have been associated with exceptional longevity. However, a recent clinical trial of a promising CETP inhibitor that markedly increases HDL-C was terminated due to increased mortality. In light of this controversy, we examined the relationship among HDL-C, CETP mutations, and longevity phenotypes in the long-lived Japanese-American men of the Honolulu Heart Program (HHP).

Absence of evidence for an association between resistin gene variants and insulin resistance in an Asian population with low and high blood pressure.

Aims: Although the function of resistin in human biology is unclear, some evidence suggests resistin gene variants influence insulin resistance, and insulin resistance-related hypertension. We searched for associations between common resistin gene variants and factors related to insulin resistance in Asian individuals with high or low blood pressure (BP).

Methods: Non-diabetic Chinese or Japanese sibling pairs were included if one had extreme hypertension and the other was either hypertensive or hypotensive.

Responses of host hemocytes during the initiation of the squid-Vibrio symbiosis.

Within hours after colonization of the light organ of the squid Euprymna scolopes by its bacterial symbiont Vibrio fischeri, the symbiont triggers morphogenesis of the light organ. This process involves the induction of apoptosis in the cells of two superficial ciliated epithelial fields and the gradual regression of these surface structures over a 96-h period. In this study, microscopic examination of various squid tissues revealed that host hemocytes specifically migrate into the epithelial fields on the surface of the light organ, a process that begins before any other indication of symbiont-induced morphogenesis.

Characterization and role of p53 family members in the symbiont-induced morphogenesis of the Euprymna scolopes light organ.

Within hours of hatching, the squid Euprymna scolopes forms a specific light organ symbiosis with the marine luminous bacterium Vibrio fischeri. Interactions with the symbiont result in the loss of a complex ciliated epithelium dedicated to promoting colonization of host tissue, and some or all of this loss is due to widespread, symbiont-induced apoptosis. Members of the p53 family, including p53, p63, and p73, are conserved across broad phyletic lines and p63 is thought to be the ancestral gene.

An annotated cDNA library of juvenile Euprymna scolopes with and without colonization by the symbiont Vibrio fischeri.

Background: Biologists are becoming increasingly aware that the interaction of animals, including humans, with their coevolved bacterial partners is essential for health. This growing awareness has been a driving force for the development of models for the study of beneficial animal-bacterial interactions. In the squid-vibrio model, symbiotic Vibrio fischeri induce dramatic developmental changes in the light organ of host Euprymna scolopes over the first hours to days of their partnership.

Symbiont-induced changes in host actin during the onset of a beneficial animal-bacterial association.

The influence of bacteria on the cytoskeleton of animal cells has been studied extensively only in pathogenic associations. We characterized changes in host cytoskeletal actin induced by the bacterial partner during the onset of a cooperative animal-bacteria association using the squid-vibrio model. Two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blot analysis revealed that Vibrio fischeri induced a dramatic increase in actin protein abundance in the bacteria-associated host tissues during the onset of the symbiosis.

Reflectins: the unusual proteins of squid reflective tissues.

A family of unusual proteins is deposited in flat, structural platelets in reflective tissues of the squid Euprymna scolopes. These proteins, which we have named reflectins, are encoded by at least six genes in three subfamilies and have no reported homologs outside of squids. Reflectins possess five repeating domains, which are highly conserved among members of the family.

The squid-Vibrio symbioses: from demes to genes.

The monospecific light organ association between the Hawaiian sepiolid squid Euprymna scolopes and the marine luminous bacterium Vibrio fischeri has been used as a model for the study of the most common type of coevolved animal-bacterial interaction; i.e., the association of Gram-negative bacteria with the extracellular apical surfaces of polarized epithelia.