Ca(2+)-dependent Ca(2+) clearance via mitochondrial uptake and plasmalemmal extrusion in frog motor nerve terminals.

Ca(2+) clearance in frog motor nerve terminals was studied by fluorometry of Ca(2+) indicators. Rises in intracellular Ca(2+) ([Ca(2+)](i)) in nerve terminals induced by tetanic nerve stimulation (100 Hz, 100 or 200 stimuli: Ca(2+) transient) reached a peak or plateau within 6-20 stimuli and decayed at least in three phases with the time constants of 82-87 ms (81-85%), a few seconds (11-12%), and several tens of seconds (less than a few percentage). Blocking both Na/Ca exchangers and Ca(2+) pumps at the cell membrane by external Li(+) and high external pH (9.0), respectively, increased the time constants of the initial and second decay components with no change in their magnitudes. By contrast, similar effects by Li(+) alone, but not by high alkaline alone, were seen only on 200 stimuli-induced Ca(2+) transients. Blocking Ca(2+) pumps at Ca(2+) stores by thapsigargin did not affect 100 stimuli-induced Ca(2+) transients but increased the initial decay time constant of 200 stimuli-induced Ca(2+) transients with no change in other parameters. Inhibiting mitochondrial Ca(2+) uptake by carbonyl cyanide m-chlorophenylhydrazone markedly increased the initial and second decay time constants of 100 stimuli-induced Ca(2+) transients and the amplitudes of the second and the slowest components. Plotting the slopes of the decay of 100 stimuli-induced Ca(2+) transients against [Ca(2+)](i) yielded the supralinear [Ca(2+)](i) dependence of Ca(2+) efflux out of the cytosol. Blocking Ca(2+) extrusion or mitochondrial Ca(2+) uptake significantly reduced this [Ca(2+)](i)-dependent Ca(2+) efflux. Thus Ca(2+)-dependent mitochondrial Ca(2+) uptake and plasmalemmal Ca(2+) extrusion clear out a small Ca(2+) load in frog motor nerve terminals, while thapsigargin-sensitive Ca(2+) pump boosts the clearance of a heavy Ca(2+) load. Furthermore, the activity of plasmalemmal Ca(2+) pump and Na/Ca exchanger is complementary to each other with the slight predominance of the latter.

Ion exchange chromatography of aluminum using 3-carboxy-2-naphthylamine-N,N-diacetic acid as a fluorescent post-column chelating reagent.

Ion exchange chromatography of aluminum ion using 3-carboxy-2-naphthylamine-N,N-diacetic acid (CNDA) as a fluorescent post-column chelating reagent was studied. The solution containing ammonium chloride and hydrochloric acid was used for the eluent, and acetate buffer solution containing CNDA was used for the post column chelating reagent. The peak of aluminum was separated from that of calcium, magnesium and zinc, and the chromatogram was not affected by copper(II) and iron(III). The calibration curve gave linear plots with a range of 0.0027-0.54 ppm aluminum, the regression coefficient of correlation (r2) was 1.000, and the detection limit (S/N = 3) was 0.3 ppb, indicating that the method could determine aluminum with high sensitivity. It was demonstrated that CNDA is a useful metallofluorescent reagent for aluminum. This method has been successfully applied to the determination of aluminum in some tea drinks.

Enhanced protein synthesis in the ipsilateral substantia nigra following middle cerebral artery occlusion in the rat.

Following focal cerebral ischemia, neuronal cell death is detected in remote areas of the brain, including the ipsilateral thalamus and substantia nigra (SN), as well as in the ischemic core. We have investigated protein synthesis in the remote areas of rats exposed to focal ischemia using autoradiography. The proximal portion of the left middle cerebral artery (MCA) was permanently occluded, and at various periods (6 h, 2, 4 and 7 days and 2 and 4 weeks following ischemia) animals received a single dose of L-[2,3-3H]valine (6.7 mCi/kg). Brain sections containing the thalamus and SN were processed for autoradiography. In the ipsilateral cerebral cortex and striatum, marked impairment of protein synthesis was observed and was never completely recovered during the experiment. No changes in protein synthesis in the ipsilateral thalamus were detected during the experiment. However, a change in protein synthesis was demonstrated in the ipsilateral SN. At 2 days after MCA occlusion, incorporation of [3H]valine into the whole zona reticulata of the ipsilateral SN was slightly enhanced and the increase became evident at 4 days after ischemia. Increased incorporation of [3H]valine began to be localized in the lateral portion of the zona reticulata after 7 days and continued up to 4 weeks following ischemia. Enhanced protein synthesis during the early stage (2 and 4 days after ischemia) may be due to the activated function of the neurons in the zona reticulata and that during the late stage (7 days and 2 and 4 weeks) after ischemia to astroglial proliferation

Glass transition temperatures of dental porcelains determined by DSC measurement.

The differential scanning calorimetry (DSC) curves for three commercial dentin and incisal porcelains fused-to metal were measured using high-temperature DSC. The glass transition temperatures (Tg) were determined from the DSC curves at heating rates of 7-20 degrees C/min, and the activation energy was derived from an Arrhenius plot of negative reciprocal Tg vs. logarithm of heating rate. The Tg of the dental porcelains depended on the content of aluminum oxide, whereas the activation energy depended on the content of sodium oxide. The ultra-low fusing type porcelains had a low activation energy due to the higher content of sodium oxide than the other porcelains.

Intramembranous and endochondral bone changes induced by a new bisphosphonate (YM175) in the beagle dog.

Oral treatment with a new bisphosphonate, YM175, for 13 wk resulted in increased bone tissue mass by both intramembranous and endochondral ossification processes in adult beagle dogs. Intramedullary bone formation due to intramembranous process was observed in dogs treated with a highly toxic dose of YM175. The newly formed woven bone trabeculae, showing immature to relatively mature figures, were present between the preexisting cancellous bone. The immature bone consisted of spindle-shaped mesenchymal cells with osteoid tissues. Many active osteoblasts surrounded the immature woven bone, while only few osteoclasts were seen on the surfaces of the new bone. Endochondral bone change was observed at the costochondral junction in all YM175-treated groups. Accumulation of unresorbed mineralized cartilage with its covering of bone at this site resulted in an increase in length of the area of primary spongiosa. Although the endochondral bone change induced by YM175 was due to a bisphosphonate-induced inhibitory effect on bone resorption, the intramedullary bone formation is unique to YM175.