Nicotinamide adenine dinucleotide fluorescence spectroscopy and imaging of isolated cardiac myocytes.

Nicotinamide adenine dinucleotide (NADH) plays a critical role in oxidative phosphorylation as the primary source of reducing equivalents to the respiratory chain. Using a modified fluorescence microscope, we have obtained spectra and images of the blue autofluorescence from single rat cardiac myocytes. The optical setup permitted rapid acquisition of fluorescence emission spectra (390-595 nm) or intensified digital video images of individual myocytes. The spectra showed a broad fluorescence centered at 447 +/- 0.2 nm, consistent with mitochondrial NADH. Addition of cyanide resulted in a 100 +/- 10% increase in fluorescence, while the uncoupler FCCP resulted in a 82 +/- 4% decrease. These two transitions were consistent with mitochondrial NADH and implied that the myocytes were 44 +/- 6% reduced under the resting control conditions. Intracellular fluorescent structures were observed that correlated with the distribution of a mitochondrial selective fluorescent probe (DASPMI), the mitochondrial distribution seen in published electron micrographs, and a metabolic digital subtraction image of the cyanide fluorescence transition. These data are consistent with the notion that the blue autofluorescence of rat cardiac myocytes originates from mitochondrial NADH.     

Persistence of the irradiated host component in thymocyte populations from bone marrow radiation chimeras infected with lymphocytic choriomeningitis virus

The thymus of chimeras made using T cell-depleted donor bone marrow from Thy1.1+ mice and 950 rad Thy 1.2+ recipients is dominated initially by cells expressing the Thy 1.2+ phenotype of the irradiated host. The thymocyte population recovered at 2 weeks after reconstitution comprises 80% Thy 1.2+ cells (host), the remainder being Thy 1.1+ (donor). This situation is normally reversed within a further week, with the host Ty 1.2+ (donor). This situation is normally reversed within a further week, with the host Thy 1.2+ thymocytes being present at a frequency of less than 5% from Week 4. Infection with lymphocytic choriomeningitis virus (LCMV) at 1 week after reconstitution with bone marrow causes a profound and persistent drop in the total number of thymocytes. The decline is equivalent for all categories of donor-derived thymocytes defined by two-color flow microfluorometric analysis for CD4 and CD8. However, there is a partial compensation by the retention of cells originating from the Thy 1.2+ host, which constitute 30-40% of the total thymocyte pool as late as 8 weeks after administration of bone marrow in the LCMV-infected chimeras. These radiation-resistant precursors give rise to CD4-8-, CD4-8+, CD4+8-, and CD4+8+ thymocytes, with the latter category being present at increased frequency. The potential skewing of the mature T cell repertoire as a consequence of persistent virus infection is discussed.     

Salinity stress increases cytoplasmic ca activity in maize root protoplasts

High concentrations of NaCl immediately elevated cytoplasmic Ca activity in maize (Zea Mays L. cv Pioneer 3377) root protoplasts, as measured with the fluorescent probe Indo-1. The effect of salinity was inhibited by Li pretreatment but restored by inositol, suggesting that phosphoinositides mediate the stress response.     

Isolation of xanthophores from the goldfish (Carassius auratus L.)

Summary A method is described for the isolation of milligram quantities of viable, hormone-responsive xanthophores from goldfish scales. The preparations are typically 70 to 90% pure and are useful for biochemical analyses or for establishing primary cultures. Preliminary results of this study were reported at the 11th International Pigment Cell Conference. This research was supported by Grant AM-13724 from the U.S. Public Health Service.     

The effect of spray washing on the development of bacterial numbers and storage life of lamb carcases

Total bacterial numbers at the most highly contaminated sites on lamb carcases (in the crutch region and adjacent to the abdominal incision) were significantly reduced to log₁₀ 3.3/cm² when spray washed with unchlorinated water at 80°C and to log₁₀ 2.8 when water at 80°C containing 450 μg/ml chlorine was used, whereas numbers on carcases which were cloth cleaned or spray washed with water at 10°C remained at approximately log₁₀ 4.0. During refrigerated storage, however, carcases treated by all methods developed similar numbers of bacteria and had the same storage life, evidently because spray washing did not affect numbers of bacteria on the diaphragm. Although initial numbers of bacteria at this site were low (log₁₀ 2.9), their numbers, and also the amount of slime, increased more rapidly there than at other sites. In addition, spray washing did not significantly affect numbers of Pseudomonas spp or Brochothrix thermosphacta , which accounted for <1% of the microflora after slaughter at each site but whose numbers were between log₁₀ 6.1 and 7.5/cm² when carcases were rejected as spoiled.     

Reduced erythrocyte deformability associated with calcium accumulation

Erythrocytes exposed to subhemolytic shear stress in vitro exhibit decreased deformability as determined by a filtration method. Intracellular calcium content of these cells has been measured by atomic absorption spectroscopy and found to be 35 and 55% higher than controls (0.0157 μmol/ml packed red blood cells) after shear stress levels of 100 and 130 N/cm², respectively. These alterations occur without significant changes in ATP level, intracellular magnesium content, cell volume, or morphology, and without large associated sodium and potassium fluxes. Results indicate that calcium may be responsible for or associated with changes in the viscoelastic properties of the red cell membrane caused by sublytic mechanical trauma.     

Colonization potential of bacteria in the rhizosphere

The effect of inoculum density on growth and steady-state populations of aPseudomonas sp., aMycoplana sp., and aCurtobacterium sp. in the rhizosphere if gnotobiotic barley plants was studied. Inoculation of sterile barley seedling at concentrations of about 1×10³, 1×10⁵ and 1×10⁷ viable cells (mg dry wt root)^–1 resulted in rapid colonization; maximum populations of about 5×10⁷ viable cells (mg dry wt root)^–1 developed in each case. We define this maximum population as the colonization potential. Measurement of growth of known rhizosphere bacteria might be a useful index of the amount of available carbon and energy lost by growing roots.     

Increase in glutamate receptors following repetitive electrical stimulation in hippocampal slices

Repetitive electrical stimulation of identified pathways in the hippocampal slice preparation induces long-term potentiation (LTP) of synaptic transmission and is accompanied by a long-lasting (up to 30 minutes) increase in L-³H-glutamate accumulation by the slices. This increased accumulation of ³H-glutamate is restricted to the terminal field of the stimulated fibers and does not seem to represent a non-specific increased accumulation of amino acids. In addition, synaptic membranes prepared from stimulated slices exhibit an increase in the maximal number of the sodium-independent high-affinity binding sites for ³H-glutamate without changes in their affinity. These results suggest that repetitive electrical stimulation elicits an increased number of glutamate receptors which might be responsible for LTP.     

Identification of novel mutations in the ryanodine-receptor gene (RYR1) in malignant hyperthermia: genotype-phenotype correlation.

Malignant hyperthermia (MH) is a pharmacogenetic disorder of skeletal muscle that is triggered in genetically predisposed individuals by common anesthetics and muscle relaxants. The ryanodine receptor (RYR1) is mutated in a number of MH pedigrees, some members of which also have central core disease (CCD), an inherited myopathy closely associated with MH. Mutation screening of 6 kb of the RYR1 gene has identified four adjacent novel mutations, C6487T, G6488A, G6502A, and C6617T, which result in the amino acid alterations Arg2163Cys, Arg2163His, Val2168Met, and Thr2206Met, respectively. Collectively, these mutations account for 11% of MH cases and identify the gene segment 6400-6700 as a mutation hot spot. Correlation analysis of the in vitro contracture-test data available for pedigrees bearing these and other RYR1 mutations showed an exceptionally good correlation between caffeine threshold and tension values, whereas no correlation was observed between halothane threshold and tension values. This finding has important ramifications for assignment of the MH-susceptible phenotype, in genotyping studies, and indicates that assessment of recombinant individuals on the basis of caffeine response is justified, whereas assessment on the basis of halothane response may be problematic. Interestingly, the data suggest a link between the caffeine threshold and tension values and the MH/CCD phenotype.