K+ channel interactions detected by a genetic system optimized for systematic studies of membrane protein interactions

Organization of proteins into complexes is crucial for many cellular functions. However, most proteomic approaches primarily detect protein interactions for soluble proteins but are less suitable for membrane-associated complexes. Here we describe a mating-based split ubiquitin system (mbSUS) for systematic identification of interactions between membrane proteins as well as between membrane and soluble proteins. mbSUS allows in vivo cloning of PCR products into a vector set, detection of interactions via mating, regulated expression of baits, and improved selection of interacting proteins. Cloning is simplified by introduction of lambda attachment sites for GATEWAY. Homo- and heteromeric interactions between Arabidopsis K(+) channels KAT1, AKT1, and AKT2 were identified. Tests with deletion mutants demonstrate that the C terminus of KAT1 and AKT1 is necessary for physical assembly of complexes. Screening of a sorted collection of 84 plant proteins with K(+) channels as bait revealed differences in oligomerization between KAT1, AKT1, and AtKC1, and allowed detection of putative interacting partners of KAT1 and AtKC1. These results show that mbSUS is suited for systematic analysis of membrane protein interactions.     

Human prostate cancer cells and xenografts are targeted and destroyed through luteinizing hormone releasing hormone receptors

BACKGROUND: A conjugate of a lytic peptide, hecate, and a 15-amino acid segment of the beta-chain of chorionic gonadotropin (CG) destroyed human prostate xenografts in nude mice by targeting LH receptors. Since these xenografts also express LHRH receptors, we prepared a LHRH-hecate conjugate and tested its ability to destroy PC-3 cells in vitro and in vivo. MATERIALS AND METHODS: LHRH-hecate was added to cultures of PC-3, BRF 41 T, DU145, and LNCaP cells in the presence and absence of steroids. PC-3 xenografts were established in nude male mice, which were treated with LHRH-hecate. RESULTS: Injections of LHRH-hecate resulted in tumor growth arrest and marked reduction of tumor burden (62.2 mg/g body weight in saline controls vs. 10.5 mg/g body weight in treated mice; P < 0.0001); unconjugated LHRH and hecate had no effect on tumor burden and tumor viability (48.5 mg/g body weight in LHRH treated animals vs. 63.2 mg/g body weight in hecate treated mice). Marked tumor necrosis occurred in conjugate treated mice. Removal of steroids from the culture media decreased the sensitivity of LNCaP and PC-3 cells to the LHRH-hecate; adding estrogen restored the sensitivity. CONCLUSIONS: LHRH-hecate may be effective in treating hormone dependent and independent prostate cancers.     

Dietary intakes and plasma concentrations of carotenoids and tocopherols in relation to glucose metabolism in subjects at high risk of type 2 diabetes: the Botnia Dietary Study

BACKGROUND: The role of antioxidants in the pathogenesis of type 2 diabetes is uncertain. OBJECTIVE: We evaluated cross-sectional relations of dietary intakes and plasma concentrations of antioxidants with glucose metabolism in a high-risk population. DESIGN: The subjects were 81 male and 101 female first- and second-degree, nondiabetic relatives of patients with type 2 diabetes. Antioxidant intake data were based on 3-d food records. Subjects taking supplements containing beta-carotene or alpha-tocopherol were excluded. Plasma antioxidant concentrations were measured by HPLC. By using multiple linear regression analysis and adjusting for demographic, anthropometric, and lifestyle covariates, we studied whether dietary and plasma alpha- and beta-carotene, lycopene, and alpha- and gamma-tocopherol were related to fasting and 2-h concentrations of glucose and nonesterified fatty acids during an oral-glucose-tolerance test, to the homeostasis model assessment index of insulin resistance, and to measures of beta cell function (incremental 30-min serum insulin concentration during an oral-glucose-tolerance test and first-phase insulin secretion during an intravenous-glucose-tolerance test). RESULTS: In men, dietary carotenoids were inversely associated with fasting plasma glucose concentrations (P < 0.05), plasma beta-carotene concentrations were inversely associated with insulin resistance (P = 0.003), and dietary lycopene was directly related to baseline serum concentrations of nonesterified fatty acids (P = 0.034). In women, dietary alpha-tocopherol and plasma beta-carotene concentrations were inversely and directly associated, respectively, with fasting plasma glucose concentrations (P < 0.05). In both sexes, cholesterol-adjusted alpha-tocopherol concentrations were directly associated with 2-h plasma glucose concentrations (P < 0.05). CONCLUSION: The data suggest an advantageous association of carotenoids, which are markers of fruit and vegetable intake, with glucose metabolism in men at high risk of type 2 diabetes.     

Function and regulation of melanoma-stromal fibroblast interactions: when seeds meet soil

Melanoma development and progression not only involve genetic and epigenetic changes that take place within the melanocytic cells, but also involve processes that are determined collectively by contextual factors including intercellular adhesions and communications. In this review, we focus on melanoma-stromal fibroblast crosstalk by direct cell-cell contact and by growth factors/cytokines/chemokines interacting with their respective receptors. The interactions between melanoma cells and stromal fibroblasts create a context that promotes tumor growth, migration/invasion, and angiogenesis. An understanding of this process and developing new experimental and screening models are of great importance for the development of effective therapeutical strategies to treat melanoma.     

Modulation of the JNK and p38 pathways by cdk5 protein kinase in a transgenic mouse model of Alzheimer's disease

In this study we have used the transgenic mouse model Tg2576 to analyze the involvement of anomalous loss of regulation of cdk5 and the stress kinases JNK and p38 in brain neuronal death as related to neurodegenerative disorders such as Alzheimer's disease. Previous studies on hippocampal cells led us to the discovery that the cdk5/p35 complex is activated in neurodegeneration, a finding that was confirmed later in the transgenic mouse model. Here we show a link between the cdk5 system and JNK and p38 phosphoproteins, as an alternative pathway to neuronal death. Brains of the Tg2576 transgenic mice overexpressing amyloid precursor protein exhibited immunoreactivity with the phosphoproteins p-JNK, p-p38 and the GTPase protein Rac1 surrounding neuritic plaques. A significant increase in the immunodetection of JNK and p38 phosphoproteins in the Tg2576 mouse compared with wild type controls confirmed these findings. The significant increase in co-immunoprecipitation of p-JNK, p-p38 and Rac1 proteins with cdk5 in the transgenic mouse provided evidence for these interactions. At the cellular level, p-JNK and cdk5 colocalized in the cytoplasm of the cell bodies and neurites of brain cortical areas of the transgenic mouse. The present evidence suggests a cellular link between the cdk5 system and the stress kinase JNK and p38 pathways in an in vivo model. This study sheds new light on the pathogenesis of neuronal degeneration processes such as those occurring in Alzheimer's disease.     

Pilot study of idarubicin-based intensive-timing induction therapy for children with previously untreated acute myeloid leukemia: Children's Cancer Group Study 2941.

PURPOSE: Randomized comparisons of idarubicin (IDA) with daunorubicin (DNR) show that in adults with acute myeloid leukemia (AML), IDA achieves higher remission rates and longer remission durations. In Children's Cancer Group Pilot Study CCG-2941, we assessed toxicity and feasibility of substituting 4 mg of DNR with 1 mg of IDA in intensive-timing daunorubicin-based induction therapy (DNR/DNR) used in CCG-2891. PATIENTS AND METHODS: On days 1 through 3 and 10 through 14, patients received two courses of dexamethasone, cytarabine, 6-thioguanine, etoposide, and IDA (IDA/IDA). After enrollment of 65 patients, toxicity prompted replacement of IDA with DNR (IDA/DNR) on days 10 through 14 for the remaining 28 patients. Outcomes were compared with those of intensive timing in CCG-2891. RESULTS: Treatment-related mortality after two courses of induction was not significantly different among the three regimens: 14% with IDA/IDA, 7% with IDA/DNR, and 9% with DNR/DNR. In course 1 of CCG-2941 IDA/IDA, 11% of patients withdrew compared with 1.5% in CCG-2891 (P <.001) and 5% in CCG-2941 IDA/DNR (P = not significant). Compared with CCG-2891 DNR/DRN, CCG-2941 IDA/IDA increased days in hospital (43 v 36 days; P =.007), mean duration of course 1 by a week (P =.002), and risk of grade 3 or 4 hyperbilirubinemia (18% v 5%; P =.02). Toxicity of IDA/DNR was not different from that of DNR/DNR in CCG-2891. The mean day 7 marrow blast percentage was 11.4% in CCG-2941 versus 21.1% in CCG-2891 (P =.004). Remission induction, survival, and event-free survival rates were not significantly different from those of CCG-2891. CONCLUSION: In CCG-2941, excessive toxicity and withdrawals outweighed potential benefits of early response with IDA.     

Genotoxicity of 4-hydroxy-2-nonenal in human colon tumor cells is associated with cellular levels of glutathione and the modulation of glutathione S-transferase A4 expression by butyrate.

The cellular production of 4-hydroxy-2-nonenal (HNE), a product of endogenous lipid peroxidation, constitutes a genotoxic risk factor for carcinogenesis. Our previous studies have shown that human HT29 colon cells developed resistance toward HNE injury after treatment with butyrate, a diet-associated gut fermentation product. This resistance was attributed to the induction of certain glutathione S-transferases (hGSTP1-1, hGSTM2-2, and hGSTA1-1) and also for the tripeptide glutathione (GSH) synthesizing enzymes. In the present study, we have investigated in HT29 cells whether hGSTA4-4, which has a high substrate specificity for HNE, was also inducible by butyrate and, thus, could contribute to the previously observed chemoresistance. In addition, we investigated if cellular depletion of GSH by L-buthionine-S,R-sulfoximine (BSO) enhances chemosensitivity to HNE injury in HT29 cells. Incubation of HT29 cells with butyrate (2-4 mM) significantly elicited a 1.8 to 3-fold upregulation of steady state hGSTA4 mRNA over 8-24 h after treatment. Moreover, 4 mM butyrate tended to increase hGSTA4-4 protein concentrations. Incubation with 100 microM BSO decreased cellular GSH levels by 77% without significant changes in cell viability. Associated with this was a 2-fold higher level of HNE-induced DNA damage as measured by the comet assay. Collectively, the results of this study and our previous work indicate that the genotoxicity of HNE is highly dependent on cellular GSH status and those GSTs that contribute toward HNE conjugation, including hGSTA4-4. Since HNE contributes to colon carcinogenesis, the favorable modulation of the GSH/GST system by butyrate may contribute to chemoprevention and reduction of the risks.