Nibedita Lenka scite author profile

The composition and activity of cytochrome c oxidase (COX) was studied in mitochondria from rat liver, brain, kidney and heart and also in different compartments of the bovine heart to see whether any correlation exists between known oxidative capacity and COX activity. Immunoblot analysis showed that the levels of ubiquitously expressed subunits IV and Vb are about 8-12-fold lower in liver mitochondria as compared to the heart, kidney and brain. The heart enzyme with higher abundance of COX IV and Vb showed lower turnover number (495) while the liver enzyme with lower abundance of these subunits exhibited higher turnover number of 750. In support of the immunoblot results, immunohistochemical analysis of heart and kidney tissue sections showed an intense staining with the COX Vb antibody as compared to the liver sections. COX Vb antibody stained certain tubular regions of the kidney more intensely than the other regions suggesting region specific variation in the subunit level. Bovine heart compartments showed variation in subunit levels and also differed in the kinetic parameters of COX. The right atrium contained relatively more Vb protein, while the left ventricle contained higher level of subunit VIa. COX from both the ventricles showed high Km for cytochrome c (23-37 microM) as compared to the atrial COX (Km 8-15 microM). These results suggest a correlation between tissue specific oxidative capacity/work load and changes in subunit composition and associated changes in the activity of COX complex. More important, our results suggest variations based on the oxidative load of cell types within a tissue.

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The expression and regulation of depolarization-activated K+ channels in the insulin-secreting cell line INS-1

Huang

Lenka

et al. 2001

Pflügers Arch - Eur J Physiol

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The aim of the present study was to characterize depolarization-activated outward currents in insulin-secreting INS-1 cells and to investigate the role of K+ channels other than the KATP channels in the regulation of insulin release. Outward currents were inhibited by 4-aminopyridine (4-AP, 10 mmol/l), tetraethylammonium (TEA, 10 mmol/l) and tetrapentylammonium (TPeA, 100 mumol/l) by 55.1 +/- 3.8% (n = 3), 78.1 +/- 3.2% (n = 6) and 98.7 +/- 0.8% (n = 5), respectively. Margatoxin (5 nmol/l) and charybdotoxin (3 mumol/l) had no effect. 4-AP inhibited mainly a fast-activating, slowly inactivating current, whereas the TEA- and TPeA-sensitive current components were slowly activating and non-inactivating. Forskolin and the forskolin analogue 1,9-dideoxyforskolin, which does not stimulate adenylyl cyclase, also inhibited the outward current, suggesting a direct effect on the channels. Using reverse transcriptase polymerase chain reaction (RT/PCR). Kv channel mRNAs of Kv1.4, Kv1.5, Kv2.1, Kv2.2, Kv3.1 and Kv3.2 were detected whereas other Kv channels, Kv1.1, Kv1.2, Kv1.3, Kv1.6 and Kv3.4 were not detected. Insulin secretion in the presence of tolbutamide (100 mumol/l) was increased by 4-AP, TEA and TPeA by 65%, 41% and 150%, respectively. Basal secretion was not affected by these blockers. Our study reveals that the opening of voltage-dependent K+ channels negatively controls insulin secretion in depolarized cells, probably by shortening the action potential thus reducing Ca2+ influx.

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Regulation of Murine Cytochrome Oxidase Vb Gene Expression in Different Tissues and during Myogenesis

Basu

Lenka

Mullick

et al. 1997

Journal of Biological Chemistry

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The mouse cytochrome oxidase (COX) Vb promoter contains three sequence motifs with partial or full consensus for YY-1 and GTG factor binding and a CArG box, located between positions ؊480 and ؊390. Individually, all three motifs stimulated transcription of the TKCAT promoter, and bound distinctly different proteins from the liver and differentiated C2C12 nuclear extracts. Collectively, these motifs, together with the downstream flanking sequence, ؊378 to ؊320, suppressed the transcription activity of heterologous promoters, thymidine kinase-chloramphenicol acetyltransferase (

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Tissue variant effects of heme inhibitors on the mouse cytochrome c oxidase gene expression and catalytic activity of the enzyme complex

Vijayasarathy

Damle

Lenka³

et al. 1999

European Journal of Biochemistry

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The in vivo effects of heme biosynthesis inhibitors, succinylacetone and CoCl2 on the cytochrome c oxidase (COX) gene expression and enzyme activity in different mouse tissues were investigated. Succinylacetone and CoCl2 showed tissue-specific differences in their ability to modulate heme aa3 content. A single dose of succinylacetone treatment for 8 h reduced the heme aa3 content of kidney mitochondria with no effect on the liver. CoCl2 treatment for 8 h, however, selectively affected the heme aa3 level in the liver. Reduced mitochondrial heme aa3 with both treatments was accompanied by approximately 50% reduced, mitochondrial genome-encoded COX I and II mRNAs and nuclear genome-encoded COX Vb mRNAs, but no change in COX IV mRNA level. Use of isolated mouse liver and brain mitochondrial systems showed a 50-80% reduction in mitochondrial transcription and translation rates in heme-depleted tissues. Blue native gel electrophoresis followed by immunoblot analysis showed that the complex from heme-depleted tissues contained a 30-50% reduction in levels of subunits I, IV, Vb and near normal levels of subunit VIc, indicating altered subunit content. Treatment of submitochondrial particles with protein kinase A and ATP resulted in partial dissociation of COX, suggesting a mechanistic basis for the reduced subunit content of the complex from heme-depleted tissues. Surprisingly, the enzyme from heme-depleted tissues showed twofold to fourfold higher turnover rates for cytochrome c oxidation, suggesting alterations in the kinetic characteristics of the enzyme following heme reduction. This is probably the first evidence that the tissue heme level regulates not only the mammalian COX gene expression, but also the catalytic activity of the enzyme, probably by affecting its stability.

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Nibedita Lenka

Structural Organization and Transcription Regulation of Nuclear Genes Encoding the Mammalian Cytochrome c Oxidase Complex

Variations in the subunit content and catalytic activity of the cytochrome c oxidase complex from different tissues and different cardiac compartments

The expression and regulation of depolarization-activated K+ channels in the insulin-secreting cell line INS-1

Regulation of Murine Cytochrome Oxidase Vb Gene Expression in Different Tissues and during Myogenesis

Tissue variant effects of heme inhibitors on the mouse cytochrome c oxidase gene expression and catalytic activity of the enzyme complex

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