A phorbol ester binding domain of protein kinase C gamma. High affinity binding to a glutathione-S-transferase/Cys2 fusion protein

Cysteine-rich regions of protein kinase C (PKC) are implicated in diacylglycerol-dependent regulation of kinase activity. The second cysteine-rich region (residues 92-173) of PKC gamma was expressed as a fusion protein with glutathione-S-transferase in Escherichia coli and purified to homogeneity by affinity chromatography. This fusion protein displayed high affinity phorbol dibutyrate (PDBu) binding (Kd 23 nM). The phosphatidylserine dependence of PDBu binding was highly cooperative with Hill numbers (near 4.5) similar to those previously reported for PKC gamma (Burns, D. J., and Bell, R. M. (1991) J. Biol. Chem. 266, 18330-18338). The fusion protein specifically bound 4 beta-hydroxy-PDBu but not the 4 alpha-stereoisomer. Furthermore, sn-1,2-dioctanoylglycerol (diC8) stereoselectively competed for PDBu binding. The cysteine-rich region was sufficient for association of the fusion protein to liposome preparations containing phosphatidylserine and phosphatidylcholine. Association was significantly enhanced in a stereospecific manner by the presence of PDBu as well as diC8. These results establish that a single cysteine-rich domain (residues 92-173) of PKC gamma contains regions necessary and sufficient for lipid-dependent stereospecific interactions with PDBu and diC8. Furthermore, the region is sufficient to confer translocation of a fusion protein to liposomes in a PDBu- and diC8-dependent fashion. Thus, a single cysteine-rich region of PKC gamma displays many of the properties characteristic of PKC.     

A novel esterase from Saccharomyces carlsbergensis, a possible function for the yeast TIP1 gene

An extracellular esterase was isolated from the brewer's yeast, Saccharomyces carlsbergensis. Inhibition by diisopropyl fluorophosphate shows that the enzyme has a serine active site. By mass spectrometry, the molecular weight of the enzyme was 16.9 kDa. The optimal pH for activity was in the range of four to five. Esterase activity was found in beer before pasteurization, and a low level of activity was still present after pasteurization. Caprylic acid, which is present in beer, competitively inhibited the esterase. The substrate preference towards esters of p-nitrophenol indicated that the enzyme prefers esters of fatty acids from four to 16 carbon atoms. The esterase has lipolytical activity; olive oil (C-18:1), which is a classical substrate for lipase, was hydrolysed. N-terminal sequence analysis of the esterase yielded a sequence which was identical to the deduced amino acid sequence of the S. cerevisiae TIP1 gene. The esterase preparation did not appear to contain significant amounts of other proteins than Tip1p, indicating that the TIP1 gene is the structural gene for the esterase.     

Protein organization on the PHA inclusion cytoplasmic boundary

Biotransformation of ethanol by liver nuclei was studied. The formation of acetaldehyde was determined by GC/FID. The 1-hydroxyethyl (1HEt) formation was established by spin trapping of the radical with N-t-butyl-alpha-phenylnitrone (PBN) followed by GC/MS. Liver nuclei, free of endoplasmic reticulum, cytosol or mitochondria, were able to biotransform ethanol to acetaldehyde in the presence of NADPH under air. Only 22% activity was observed in the absence of the cofactor. Twenty-six percent of the NADPH-dependent activity and 47% of the NADPH-independent activity were observable under nitrogen. Aerobic biotransformation was inhibited by CO, SKF 525A, 4-methylpyrazole and by diethyldithiocarbamate. This suggests that CYP2E1 is involved in the process. However, the formation of acetaldehyde was able to proceed under a pure CO atmosphere. The lack of inhibitory effects of 2-mercapto-1-methylimidazol and thiobenzamide excludes the potential participation of the NADPH flavin monooxigenase system. The formation of hydroxyl radicals in the process is suggested by the partial inhibitory effect of 5 mM mannitol and 5 mM sodium benzoate and by the fact that the 1HEt was detected. The NADPH-dependent anaerobic ethanol biotransformation pathway was stimulated by FAD and inhibited to some extent by iron chelators. The relevance of a liver nuclear ethanol biotransformation, generating reactive metabolites, such as acetaldehyde and free radicals, nearby DNA, nuclear proteins and lipids is discussed.     

Renal lesion growth in children with tuberous sclerosis complex

Clostridium difficile-associated diarrhea (CDAD) is regarded as an emerging nosocomial infection. All patients positive for C. difficile in Sweden were recorded during 1995, including primary care patients. Those positive for toxin in feces were defined as CDAD cases. A total of 5,133 CDAD cases were recorded (58 per 100,000 inhabitants per year), as compared with 86 cases diagnosed in 1978 and 553 in 1983. CDAD was almost twice as prevalent as all (combined) diagnosed domestic cases of reportable bacterial and protozoal diarrhea. The age-specific incidence was little affected by gender but increased > 10-fold over the age range of 60-98 years. The differences in overall CDAD incidence were sixfold between counties and threefold between major hospitals. Among hospitalized patients the incidences were highest in geriatric/rehabilitation wards, followed by infectious diseases and internal medicine wards; 28% of all cases involved no recent hospitalization and were defined as community-acquired CDAD.     

Autoactivation of procaspase-9 by Apaf-1-mediated oligomerization

Activation of procaspase-9 by Apaf-1 in the cytochrome c/dATP-dependent pathway requires proteolytic cleavage to generate the mature caspase molecule. To elucidate the mechanism of activation of procaspase-9 by Apaf-1, we designed an in vitro Apaf-1-procaspase-9 activation system using recombinant components. Here, we show that deletion of the Apaf-1 WD-40 repeats makes Apaf-1 constitutively active and capable of processing procaspase-9 independent of cytochrome c an dATP. Apaf-1-mediated processing of procaspase-9 occurs at Asp-315 by an intrinsic autocatalytic activity of procaspase-9 itself. We provide evidence that Apaf-1 can form oligomers and may facilitate procaspase-9 autoactivation by oligomerizing its precursor molecules. Once activated, caspase-9 can initiate a caspase cascade involving the downstream executioners caspase-3, -6, and -7.     

The Charing Cross Hospital experience with temozolomide in patients with gliomas

Temozolomide, a new oral cytotoxic agent, was given to 75 patients with malignant gliomas. The schedule used was for the first course 150 mg/m2 per day for 5 days (i.e. total dose 750 mg/m2), escalating, if no significant myelosuppression was noted on day 22, to 200 mg/m2 per day for 5 days (i.e. total dose 1000 mg/m2) for subsequent courses at 4-week intervals. There were 27 patients with primary disease treated with two courses of temozolomide prior to their radiotherapy and 8 (30%) fulfilled the criteria for an objective response. There were 48 patients whose disease recurred after their initial surgery and radiotherapy and 12 (25%) fulfilled the criteria for an objective response. This gave an overall objective response rate of 20 (27%) out of 75 patients. Temozolomide was generally well tolerated, with little subjective toxicity and predictable myelosuppression. However, the responses induced with this schedule were of short duration and had relatively little impact on overall survival. In conclusion, temozolomide given in this schedule has activity against high grade glioma. However, studies evaluating chemotherapy in primary brain tumours should include a quality-of-life/performance status evaluation in addition to CT or MRI scanning assessment.