Gian Luigi Sottocasa scite author profile

Preparations of rat-liver mitochondria catalyze the oxidation of exogenous NADH by added cytochrome c or ferricyanide by a reaction that is insensitive to the respiratory chain inhibitors, antimycin A, amytal, and rotenone, and is not coupled to phosphorylation. Experiments with tritiated NADH are described which demonstrate that this "external" pathway of NADH oxidation resembles stereochemically the NADH-cytochrome c reductase system of liver microsomes, and differs from the respiratory chain-linked NADH dehydrogenase. Enzyme distributation data are presented which substantiate the conclusion that microsomal contamination cannot account for the rotenone-insensitive NADH-cytochrome c reductase activity observed with the mitochondria. A procedure is developed, based on swelling and shrinking of the mitochondria followed by sonication and density gradient centrifugation, which permits the separation of two particulate subfractions, one containing the bulk of the respiratory chain components, and the other the bulk of the rotenone-insensitive NADH-cytochrome c reductase system. Morphological evidence supports the conclusion that the former subfraction consists of mitochondria devoid of outer membrane, and that the latter represents derivatives of the outer membrane. The data indicate that the electron-transport system associated with the mitochondrial outer membrane involves catalytic components similar to, or identical with, the microsomal NADHcytochrome b5 reductase and cytochrome bs.

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[72c] Separation and some enzymatic properties of the inner and outer membranes of rat liver mitochondria

Sottocasa¹,

Kuylenstierna²,

Ernster³

et al. 1967

309

212

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The Bilirubin-Binding Motif of Bilitranslocase and Its Relation to Conserved Motifs in Ancient Biliproteins

Battiston

Passamonti

Macagno

et al. 1998

Biochemical and Biophysical Research Communications

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Biochemical and molecular aspects of the hepatic uptake of organic anions

Tiribelli

Lunazzi

Sottocasa

1990

Biochimica et Biophysica Acta (BBA) - Reviews on Biomembranes

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Cellular localization of sulfobromophthalein transport activity in rat liver

Baldini¹,

Passamonti²,

Lunazzi³

et al. 1986

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Isolation of a soluble Ca2+ binding glycoprotein from ox liver mitochondria

Sottocasa

Sandri

Panfili

et al. 1972

Biochemical and Biophysical Research Communications

121

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[5] Use of artificial electron acceptors for abbreviated phosphorylating electron transport: Flavin-cytochrome c

Lee¹,

Sottocasa²,

Ernster³

1967

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Bilitranslocase localization and function in basolateral plasma membrane of renal proximal tubule in rat

Elı́as

Lunazzi

Passamonti

et al. 1990

American Journal of Physiology-Renal Physiology

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Bilirubin and phthalein dyes are taken up by the liver via a carrier-mediated mechanism operated at least in part by bilitranslocase (BTL). Because they also undergo renal transport, the presence and function of BTL was investigated in rat renal tubular plasma membrane vesicles. Transport of sulfobromophthalein (BSP) was enriched in basolateral domain of plasma membrane and followed the distribution pattern of Na(+)-K(+)-ATPase but not of gamma-glutamyltransferase. BSP uptake was inhibited by addition of monospecific antibodies raised against hepatic BTL. As in liver vesicles, BSP transport was electrogenic, being greatly accelerated by addition of valinomycin in presence of an inwardly directed K+ gradient. Apparent Km of BSP transport was 17 +/- 2 microM (n = 3 expts), one order of magnitude higher than that measured in liver; however, Vmax was similar to that described in liver vesicles (429 +/- 18 nmol BSP.mg protein-1.min-1, n = 3 expts). Competitive inhibition was observed with both unconjugated bilirubin (Ki, 2.9 +/- 0.2 microM) and rifamycin SV (Ki, 76 +/- 10 microM), known competitors for hepatic BTL-mediated transport of BSP. Immunoblotting studies with anti-BTL monospecific antibodies revealed presence of a single positive band only in basolateral-enriched membrane fraction; its apparent molecular mass was 37 kDa, virtually identical to that of hepatic protein. Immunohistochemistry confined presence of BTL to renal proximal tubules (RPT) We conclude that BTL is present in basolateral plasma membrane of RPT cells. Lower affinity of renal, compared with hepatic protein, for substrates might explain the marginal role of kidney in plasma clearance of bilirubin and cholephilic dyes.

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