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Adenosine triphosphatase in nerves and ganglia of rats with streptozotocin-induced diabetes or galactosaemia; effects of aldose reductase inhibition (1988)

Lambourne, J. E. ; Brown, A. M. ; Calcutt, N. ; [et al.]

Springer

Diabetologia 31 (1988), S. 379-384

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ISSN: 1432-0428

Keywords: Adenosine triphosphatase ; aldose reductase ; diabetic neuropathies ; galactosaemia ; myo-inositol ; polyol pathway ; streptozotocin diabetes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary This study measured the ouabain-sensitive and ouabain-resistant adenosine triphosphatase activity in homogenates of the sciatic nerves and of pooled fourth and fifth lumbar dorsal root ganglia from rats fed 20% galactose or made diabetic with streptozotocin for either 4 or 8 weeks. Diabetes caused reductions in both fractions of sciatic nerve adenosine triphosphatase activity. After 8 weeks the ouabainsensitive fraction was 54% of control (p〈0.05) and the ouabain-resistant fraction was 57% of control (p〈0.05). Galactose feeding more than doubled the ouabain-sensitive adenosine triphosphatase activity in the sciatic nerve (225% of control after 4 weeks, 215% of control after 8 weeks of galactose feeding, bothp〈0.01) and produced a progressive increase in the ouabain-resistant fraction (119% of control at 4 weeks (p〈0.05) and 176% of control at 8 weeks (p〈0.01)). In a group of rats fed galactose for 5 days, sciatic nerve ouabain-sensitive adenosine triphosphatase activity was 165% of control. Treatment with the aldose-reductase inhibitors tolrestat, ponalrestat or sorbinil prevented accumulation of polyol and depletion of myo-inositol in the sciatic nerves, indicating effective inhibition of aldose reductase. These drugs prevented completely the effect of galactose on the sciatic nerve adenosine triphosphatase activity, but had no significant effect on the reduction in adenosine triphosphatase activity in the sciatic nerves of diabetic rats. In the dorsal root ganglia galactose feeding had no measurable effect on the adenosine triphosphatase activity. Diabetes caused a modest numerical reduction in the ouabain-sensitive activity only. The findings indicate markedly different effects of diabetes and galactosaemia on the adenosine triphosphatase activity in rat sciatic nerve and show that the reduction in activity seen in the nerves of diabetic rats was not related to exaggerated polyol pathway flux.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02341507

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Recovery of Ca currents from inactivation: The roles of Ca influx, membrane potential, and cellular metabolism (1983)

Yatani, A. ; Wilson, D. L. ; Brown, A. M.

Springer

Cellular and molecular neurobiology 3 (1983), S. 381-395

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ISSN: 1573-6830

Keywords: Ca current ; voltage clamp ; ATP ; snail neuron

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary 1. Ca currents were examined with regard to their recovery from inactivation. The experiments were done on isolated nerve cell bodies ofHelix aspersa using a combined suction pippet, microelectrode method for voltage clamp, and internal perfusion. Ca currents were separated by suppressing K and Na currents. 2. The time course of recovery was determined by applying a test pulse at intervals ranging from 1 msec to 20 sec after prepulses varying from 20 to 3000 msec in duration. Each pair of pulses was preceded by a control pulse to ensure that the Ca currents had recovered before the next test pair was applied. Ba and Ca currents were compared and the effects of intracellular perfusion with EGTA, ATP, and vanadate were examined. 3. Ba currents recovered in two stages and this time course was well fit by a sum of two exponentials with amplitudes and time constants given byA 1 andτ 1 for the fast component andA 2 andτ 2 for the slow component. In Ba the time constants were unchanged when prepulse durations were prolonged from 70 to 700 msec, although the initial amplitudesA 1 andA 2, particularlyA 2, were increased. 4. Comparable influxes of Ca during the prepulse caused much more inactivation, but interestingly the recovery occurred at the same rate. The time course of Ca current recovery was also fit by a sum of two exponentials, the time constants of which were both smaller than the time constants of Ba current recovery. However, the time constants of Ca current recovery were increased markedly when prepulse durations were prolonged. Increasing the extracellular Ca concentration had a similar effect. 5. Increasing the Ba influx had no effect on the recovery time constants, and the Ba results are consistent with reversible inactivation gating of potential-dependent membrane Ca channels. The Ca results show that Ca influx enhances inactivation. Intracellular perfusion with EGTA resulted in less inactivation in the cast of Ca but it had no effect on Ba currents. Intracellular ATP increased the rate of recovery of Ca currents, and intracellular vanadate inhibited recovery. It is concluded that recovery of Ca channels depends upon both Ca influx and membrane potential and is modulated by agents which affect Ca metabolism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00734718

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Clonal analysis of cardiac morphogenesis in the chicken embryo using a replication-defective retrovirus: I. Formation of the ventricular myocardium (1992)

Mikawa, T. ; Borisov, A. ; Brown, A. M. C. ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

American Journal of Anatomy 193 (1992), S. 11-23

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ISSN: 0002-9106

Keywords: Heart ; Development ; Cell lineage ; Myocardium ; Cardiac myocyte ; Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: Cells of the precardiac mesoderm (stages 4-6) and dividing myocytes of early hearts (stages 10-15) were tagged with a replication-incompetent retrovirus (CXL) (Mikawa et al., 1991 b) encoding bacterial β-galactosidase (β-gal). Two protocols were used to infect the cardiogenic cells. (1) Small blocks (∼50 μm2) of anterolateral mesoderm were dissected from gastrula-stage embryos (stages 4-6) and incubated in liquid medium containing the retrovirus. After removal of CXL, the tissues were dispersed into single-cell suspensions and pressure injected into the precardiac areas of recipient embryos (stages 4-6). Such embryos were then incubated in vitro at 37°C for 2 days (New, 1968), and those embryos with beating hearts were fixed for X-gal histochemistry and paraffin serial sectioning. (2) CXL was pressure injected in ovo (embryonic stages 4-15) into cardiogenic tissues and the eggs subsequently returned to an incubator. At selected stages of development embryos or whole hearts were fixed, stained with X-gal, and serially sectioned after paraffin embedding. The first method showed that (1) cells of the precardiac mesoderm could be infected with the retrovirus, (2) the transplanted cells would differentiate into beating myocytes, and (3) β-gal expression was sufficiently high to be detected histochemically. With the second procedure we could show that (1) β-gal-tagged cells formed colonies in the myocardium, (2) the labeled cells were exclusively myocytes, (3) the number of cells per colony increased with increasing age of embryonic development, (4) the size of colonies was larger in the left than the right ventricle, (5) many of the colonies were transmural, i.e., they extended from epicardial to endocardial layers of the myocardium and generally exhibited a cone or funnel-shape with the base of the cone nearest the epicardium, (6) the orientation of myocytes within each colony changed at different layers of the myocardium, and (7) the cones contained both β-gal+ and β-gal- myocytes. DNA labeling studies with [3H]thymidine indicated that cardiogenic cells divided every 16-18 hr during the first week of development and that the CXL-labeled cells divided indistinguishably from unlabeled myocytes. Based on these observations a model for the growth of the myocardium is presented.

Additional Material: 9 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/aja.1001930104

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