Localization of enzyme for heme attachment to apocytochrome c in yeast mitochondria

Fractionation of yeast mitochondria by controlled hypotonic treatment revealed that the enzyme for heme attachment to apocytochrome c was localized in mitochondrial inner membrane. Trypsin digestion of mitoplasts resulted in a considerable loss of enzymatic activity, whereas the enzyme in intact mitochondria resisted the digestion. Triton X-100 solubilized the enzyme from the membrane but high concentration of salt did not. These results reveal that the enzyme for heme attachment is localized in mitochondrial inner membrane facing the cytoplasmic surface.     

Glucosylation of Salicyl Alcohol by Gardenia jasminoides Cell Cultures

Cultured cells of Gardenia jasminoides produced both salicinand isosalicin from exogenously supplied salicyl alcohol. Theglucosylation activity of the cells was highest in the exponentialphase of growth and ca. 70% of the added substrate was convertedto the glucosides within 4 days. The rate of glucosylation wasalso dependent on the medium composition such as auxin and sucroseconcentrations. The ratio of salicin to isosalicin formed fromsalicyl alcohol was influenced by the growth stage of the culturedcells. Salicin was converted to isosalicin when exogenouslyadded to the culture. (Received October 11, 1985; Accepted March 10, 1986)     

Contributions of cytoplasmic free and membrane-bound ribosomes to the synthesis of NADPH-adrenodoxin reductase and adrenodoxin of bovine adrenal cortex mitochondria

Cytoplasmic free and membrane-bound ribosomes were isolated from bovine adrenal cortex, and characterized. Contributions of free and bound ribosomes to the synthesis of NADPH-adrenodoxin reductase (AdR) and adrenodoxin (Ad) were determined by examining the presence of their nascent peptides on isolated ribosomes. Nascent peptides were released from the ribosomes by [3H]puromycin in a high salt buffer in the presence of a detergent, and the nascent peptides of AdR and Ad were separately isolated by immunoprecipitation using antibodies. AdR nascent peptides were associated with free and loosely-bound ribosomes, whereas Ad nascent peptides were associated with free, loosely-bound and tightly-bound ribosomes. Smaller nascent peptides of AdR were carried by free ribosomes, whereas larger nascent peptides were preferentially carried by loosely-bound ribosomes. In the case of Ad, smaller nascent peptides were more abundant in free ribosomes than in bound ribosomes. The nascent peptides of Ad were released from bound ribosomes of rough microsomes to the aqueous milieu by puromycin treatment, suggesting the release of completed Ad peptides into the cytoplasm in cells.     

Serologic dissection of HLA-D specificities by the use of monoclonal antibodies

To study the gene products of the HLA complex, we produced two monoclonal antibodies, termed HU-18 and HU-23. They were active in complement-dependent cytotoxicity and detected B-cell alloantigens encoded by a locus (or loci) linked to HLA. When three types of HLA-DR4 homozygous B-cell lines with different HLA-D specificities were tested for reactivity with HU-18 and HU-23, they displayed distinct reaction patterns depending on the HLA-D specificities they possessed: EBV-Wa (HLA-DYT homozygous), negative for both HU-18 and HU-23; KT2 and KOB (HLA-DKT2 homozygous), positive only for HU-18; and ER (HLA-Dw4 homozygous), positive for both. These differential reaction patterns were further confirmed by testing against a panel of 17 HLA-DR4-positive peripheral blood lymphocytes with known HLA-D specificities. Thus, these monoclonal antibodies allow us to identify HLA-DYT, HLA-DKT2, and HLA-Dw4 solely by serologic methods. This is the first clearcut serologic identification of these three HLA-DR4-associated HLA-D specificities, which have been indistinguishable by conventional serology and identified only by cellular techniques. It is hoped that immunochemical investigations using HU-18 and HU-23 will advance our understanding of the HLA-D region on a molecular level.     

Chronopharmacological study of furosemide; (VI). Influence of prolonged exposure to continuous light

We have previously reported that a time-dependent variability is observed in the diuretic effects of furosemide in rats. The present study was undertaken to examine the influence of prolonged exposure to continuous light on chronopharmacological profiles of furosemide in Wistar rats. In study I, rats were maintained for more than 2 weeks under conditions of light (0700-1900 hrs) and dark (1900-0700 hrs) (L-D). Furosemide (30 mg/kg) was orally given at 1200 hrs or at 2400 hrs. Urine was collected for 8 hours after the drug and urinary excretion of sodium and furosemide were determined respectively. Thereafter, these rats were exposed to continuous light (L-L) for the next 4 weeks, and were again maintained under the L-D cycle. The identical trial of study I was repeated at the end of the L-L (study II) and the second L-D (study III) conditions. Urine volume and urinary excretion of sodium and furosemide following the drug were significantly greater at 1200 hrs than at 2400 hrs under conditions of L-D (study I and III). However these administration time-dependent changes in the effects of furosemide and its urinary amount disappeared with L-L condition (study II). These findings indicate that the mode of the time-dependent changes in the effects of furosemide is altered by prolonged exposure to continuous light.     

Porcine brain natriuretic peptide receptor in bovine adrenal cortex

The action of porcine brain natriuretic peptide (pBNP) on the steroidogenesis was investigated in cultured bovine adrenocortical cells. Porcine BNP induced a significant dose-dependent inhibition of both ACTH- and A II-stimulated aldosterone secretion. 10(-8) M and 10(-7) M pBNP also significantly inhibited ACTH-stimulated cortisol and dehydroepiandrosterone (DHEA) secretions. Binding studies of [125I]-pBNP to bovine adrenocortical membrane fractions showed that adrenal cortex had high-affinity and low-capacity pBNP binding sites, with a dissociation constant (Kd) of 1.70 x 10(-10) M and a maximal binding capacity (Bmax) of 19.9 fmol/mg protein. Finally, the 135 Kd radioactive band was specially visualized in the affinity labeling of bovine adrenal cortex with disuccinimidyl suberate (DSS). These results suggest that pBNP may have receptor-mediated suppressive actions on bovine adrenal steroidogenesis, similar to that in atrial natriuretic peptide (ANP).     

Structure-receptor binding relationships of sarafotoxin and endothelin in porcine cardiovascular tissues

The specific binding of 125I-sarafotoxin S6b was observed in the microsomal fractions from porcine thoracic aorta, and two vasoconstrictive peptides with strikingly homologous structures, sarafotoxin (SRT) and endothelin (ET), interact with a common receptor of the vasculature. The order of the potency of an each endothelin or sarafotoxin analogue as a competitor against 125I-sarafotoxin S6b binding was ET-1 greater than ET-2 greater than SRT S6b greater than ET-3 much greater than SRT S6c. The hydrophobic carboxyl-terminal tail and intramolecular disulfide bridges are essential for the binding activity. In addition, Ser4, Ser5 and Lys9 seem to be important for the activity while the 6th residue does not affect the activity.