Effect of increased oxygen affinity and anemia on cardiac output and its distribution

Effect of increased blood O2 affinity on cardiac output and its distribution was studied in conscious sedated rats by the microsphere-reference sample method. After a preliminary measurement of cardiac output and its distribution, rats were exchange transfused with normal blood or low-P50 (PO2 at which hemoglobin is half-saturated with O2) blood; other groups were made anemic with and without a simultaneous reduction in P50. Reduction in P50 from 38 to 17 Torr did not change cardiac output, pulse, or blood pressure but caused, after allowance for changes in controls, a 102% increase in coronary blood flow and an 88% increase in cerebral blood flow. Anemia (hematocrit = 22%) produced similar changes in coronary and cerebral flow. When anemia was combined with a 12-Torr reduction in P50, coronary and cerebral flow increased by 297 and 209%, respectively. These increases in coronary and cerebral flow were not attributable to increased cardiac work or hypercapnia. It is concluded that a left shift of the O2 dissociation curve induces increased blood flow to brain and heart, probably in compensation for decreased tissue O2 pressure.

Vasopressin augments depolarization-induced release and synthesis of serotonin in hippocampal slices

Vasopressin may be a neurotransmitter and in vivo experiments suggest that it acts on monoamine metabolism. The rat hippocampal slice contains serotonergic nerve terminals but not cell bodies; we studied the effect of vasopressin on the synthesis and release of serotonin from these nerve terminals during depolarization. Incubation of slices in a buffer containing 60 mM K+ (high K buffer) for 10 min stimulated the release of serotonin into bathing medium and resulted in a Ca2+-dependent depletion of tissue serotonin from about 4.2 to about 2.8 ng/mg of protein. Vasopressin (10(-7) M) inhibited this depletion by about 70% so that serotonin levels fell only to 3.8 ng/mg of protein. The peptide also augmented the high K+-induced release of serotonin into the bathing medium by about 60%. The synthesis of serotonin was measured by determining its accumulation during a period when its catabolism was inhibited by pargyline. Vasopressin augmented the synthesis of serotonin in slices incubated in high K buffer by about 60%. There are serotonergic nerve endings in both the dentate gyrus and CA1 regions of the hippocampus. The effect of vasopressin on tissue serotonin was confined to the dentate gyrus regions. The data show that vasopressin acts on a specific group of hippocampal nerve endings to increase serotonin synthesis. The resulting increase in tissue serotonin may be the factor leading to the observed increase in serotonin release.

Metabolic stability of messenger ribonucleoprotein in HeLa cells

The proteins bound to HeLa cell polyribosomal messenger RNA were isolated by subjecting salt-washed, puromycin-disassembled polyribosomes to a limited digestion with pancreatic ribonuclease (ref. 1, Auerbach, S. and Pederson, T. (1975) Biochem. Biophys. Res. Commun. 63, 149-153). Label-chase experiments with radioactive amino acids revealed that the in vivo decay kinetics of the messenger RNA-associated proteins were approximately first-order, with t1/2 equal 13-15 h. The results suggest that HeLa messenger RNA and its specific set of associated proteins do not behave as single units metabolically.