Lisa M. Geddis

Estimation of Estradiol in Mouse Serum Samples: Evaluation of Commercial Estradiol Immunoassays

The University of Virginia Center for Research in Reproduction Ligand Core performed an evaluation of nine commercial estradiol (E2) immunoassays for use with mouse serum. The evaluation had two components. 1) Recovery Studies: a mouse pool was spiked with E2 concentrations across the assay range, and percent recovery and parallelism to the assay standard curve were determined. 2) Correlation Studies: serum pools were collected from intact females, ovariectomized (OVX) and OVX-E2 treated mice and E2 assayed, then measured by gas chromatography/tandem mass spectrometry (GC/MSMS) for comparison to a gold standard method. Recovery results showed that E2 recovery from spiked mouse pools varied greatly (from <18% to >640%) among kits tested. However, three kits (DiaSorin Radioimmunoassay, Siemens Double Antibody RIA, and CalBiotech Enzyme Immunoassay) showed reasonable recoveries and parallelism. Data collected from the Correlation Study showed that values from intact, OVX and OVX-E2-treated mouse pools varied by several fold vs. GC/MSMS for most of the kits tested. The DiaSorin RIA and CalBiotech Enzyme Immunoassay Kits showed the best correlation to GC/MSMS. Unfortunately, while this evaluation was ongoing, the DiaSorin Kit was discontinued. In summary, the CalBiotech Kit was the only available assay tested that demonstrated good E2 parallelism to the assay standard curve and accuracy vs. a gold standard method (i.e. GC/MSMS). Also of note, the CalBiotech assay is sensitive and requires minimal sample volume. Therefore, based on these findings the CalBiotech E2 assay has been implemented for use in mouse serum samples within the Ligand Core.

Effects of anesthetic alcohols on membrane transport processes in human erythrocytes.

1. Anesthetic alcohols (pentanol, hexanol and heptanol) were found to increase the fluidity of red cell membrane lipids as monitored by the fluorescence depolarization of diphenylhexatriene. The relative potency of the alcohols was found to be parallel to their relative membrane/water partition coefficients. 2. Hexanol had biphasic effect on erythritol uptake by simple diffusion by red cells. At concentrations less than 9 mM, there was an approximately linear increase in erythritol permeability with increasing alcohol concentration. 3. The facilitated transport of uridine was markedly inhibited by hexanol. Hexanol at 6 mM produced a 65% inhibition of uridine (4 mM) uptake. Hexanol decreased both the apparent Km and V values for the equilibrium exchange of uridine. 4. The facilitated transport of galactose was only slightly inhibited by hexanol. 5. Hexanol was without effect on the passive and active fluxes of Na+ and K+ in red cells with altered cation contents. Cells that were slightly depleted of K+ and cells that were highly K+ -depleted were both insensitive to hexanol.

Determination of protein in red cell membrane preparations by o-phthalaldehyde fluorescence

Abstract A simple o -phthalaldehyde method is presented for use with soluble and membrane proteins. Advantages over previously described methods are that no waiting period is required for fluorescence to develop and equal amounts of bovine serum albumin and red cell membrane protein produce about equal fluorescence intensity.

Identification of heterotrimeric and low molecular weight GTP-binding proteins in rabbit skeletal muscle longitudinal sarcoplasmic reticulum.

Direct photoaffinity labeling of proteins of longitudinal sarcoplasmic reticulum (LSR) of rabbit skeletal muscle with [32P]GTP revealed GTP-binding proteins of about 52, 45 and 30 kDa. ADP-ribosylation with [32P]NAD in the presence of cholera toxin (CTX) or pertussis toxin (PTX) indicates the existence of a CTX substrate (about 45 kDa); no PTX substrates were observed. Western blots of LSR probed with RM/1, an antiserum against a decapeptide from the C-terminus of Gs alpha, showed an immunoreactive band at about 45 kDa. [32P]GTP overlays of Western blots of LSR showed a heavily-labeled protein of about 29 kDa and one or more additional slightly smaller proteins that were more weakly labeled. When LSR was subjected to mild trypsin hydrolysis, the Western blot overlay revealed three bands at about 23, 25 and 29 kDa. Western blots of LSR proteins showed no significant immunoreactivity with the anti-(pan)-ras monoclonal antibodies 142-24E05 and Ras 11. ADP-ribosylation of LSR with [32P]NAD in the presence of C3 exoenzyme of Clostridium botulinum yielded a labeled band at about 23 kDa. Our results indicate the presence in rabbit LSR of a Gs alpha, the absence of Gi and G(o), and the presence of several low molecular weight GTP-binding proteins, distinct from p21 ras, one of which belongs to the rho or rac family.

Mediated transport and metabolism of lactate in rat aorta

1. Under appropriate conditions L- and D-lactate enter the cells of rat aorta and are metabolized. Oxidation of lactate to CO2 occurs under aerobic conditions. 2. L- and D-lactate are taken up into the cells when oxygen, glucose, or both oxygen and glucose are present in the incubation medium. Both L- and D-lactate are excluded from the cells when neither oxygen nor glucose is present. 3. D,L-Glyceraldehyde prevents the uptake of L-lactate. The effect is apparently not due to the inhibition of glucose metabolism by L-glyceraldehyde. 4. L-lactate (20 mM) markedly inhibits the uptake of 5 mM D-lactate, but 20 mM D-lactate fails to inhibit the uptake of 5 mM L-lactate. 5. Raising the pH of the incubation medium markedly depresses the uptake of L-lactate. 6. The results provide evidence that L- and D-lactate enter the cells of rat aorta by a mediated transport system.

Tanks to the Reviewers

The Editors and the members of the editorial board would like to thank the following individuals for their expert assistance in acting as reviewers for the Journal of Vascular Research in the period of September 2004 to September 2005. Our aim of establishing the journal as a leading journal in the fi eld of vascular science is to a large extent in the hands of our reviewers and we, together with our authors and readers, much appreciate the time which they have freely given.