Function-dependent conformational changes of the ABCG2 multidrug transporter modify its interaction with a monoclonal antibody on the cell surface

The human ABCG2 protein is an important primary active transporter for hydrophobic compounds in several cell types, and its overexpression causes multidrug resistance in tumors. A monoclonal antibody (5D3) recognizes this protein on the cell surface. In ABCG2-expressing cells 5D3 antibody showed a saturable labeling and inhibited ABCG2 transport and ATPase function. However, at low antibody concentrations 5D3 binding to intact cells depended on the actual conformation of the ABCG2 protein. ATP depletion or the addition of the ABCG2 inhibitor Ko143 significantly increased, whereas the vanadate-induced arrest of ABCG2 strongly decreased 5D3 binding. The binding of the 5D3 antibody to a non-functional ABCG2 catalytic center mutant (K86M) in intact cells was not affected by the addition of vanadate but still increased with the addition of Ko143. In isolated membrane fragments the ligand modulation of 5D3 binding to ABCG2 could be analyzed in detail. In this case 5D3 binding was maximum in the presence of ATP, ADP, or Ko143, whereas the non-hydrolysable ATP analog, adenosine 5'-(beta,gamma-imido)triphosphate (AMP-PNP), and nucleotide trapping by vanadate decreased antibody binding. In membranes expressing the ABCG2-K86M mutant, ATP, ADP, and AMP-PNP decreased, whereas Ko143 increased 5D3 binding. Based on these data we suggest that the 5D3 antibody can be used as a sensitive tool to reveal intramolecular changes, reflecting ATP binding, the formation of a catalytic intermediate, or substrate inhibition within the transport cycle of the ABCG2 protein.     

The evolution of carotenoid coloration in estrildid finches: a biochemical analysis

The estrildid finches (Aves: Passeriformes: Estrildidae) of Africa, Asia, and Australia have been the focus of several recent tests of sexual selection theory. Many estrildids display bright red, orange, or yellow colors in the beak or plumage, which typically are generated by the presence of carotenoid pigments. In this study, we used high-performance liquid chromatography to investigate the carotenoid content of feathers and other colorful tissues in seven species of estrildids. Star finches (Neochmia ruficauda) and diamond firetails (Stagonopleura guttata) circulated two main dietary carotenoids (lutein and zeaxanthin) through the blood and liver and used both to acquire a yellow plumage color. However, five other estrildids (common waxbill, Estrilda astrild; black-rumped waxbill, Estrilda troglodytes; zebra waxbill, Amandava subflava; red avadavat, Amandava amandava; and zebra finch, Taeniopygia guttata) circulated these same dietary carotenoids along with two metabolites (dehydrolutein and anhydrolutein) through the blood and/or liver and used all four as yellow plumage colorants. We subsequently tracked the distribution of these pigments using a published phylogeny of estrildid finches to determine the evolutionary pattern of carotenoid metabolism in these birds. We found that finches from the most ancient tribe of estrildids (Estrildini) possessed the ability to metabolize dietary carotenoids. Although carotenoids from the most ancestral extant estrildid species have yet to be analyzed, we hypothesize (based on their relationships with other songbirds known to have such metabolic capabilities) that these finches inherited from their ancestors the capability to metabolize carotenoids. Interestingly, later in estrildid evolution, certain taxa lost the ability to metabolize dietary carotenoids (e.g., in the Poephilini), suggesting that the occurrence of carotenoid metabolism can be labile and is likely shaped by the relative costs and benefits of color signaling across different species.     

Transient inhibition of DNA synthesis by 5-fluorodeoxyuridine leads to overexpression of dihydrofolate reductase with increased frequency of methotrexate resistance

Transient but incomplete suppression of DNA synthesis by a single exposure of an asynchronous population of cells to 5-fluoro-2'-deoxyuridine (FdUrd) increases the frequency of appearance of methotrexate (MTX)-resistant colonies. This increase was greater than 10-fold following a 6-h incubation of cells with 3 microM FdUrd prior to selection in MTX, an interval one-half the normal L1210 cell cycle time. During this period of exposure to FdUrd, DNA synthesis decreased to 25% of control rates and cells accumulated at the G1/S interface. The 6-h incubation with FdUrd resulted in greater than a 2.5-fold increase in the dihydrofolate reductase protein level in the treated cell population, which was accounted for, at least in part, by increased de novo synthesis of the enzyme as assessed by [35S]methionine labeling. This increase in dihydrofolate reductase was associated with a decrease in growth inhibition by MTX. A brief reversal (2 h) of FdUrd-induced DNA synthesis inhibition by the addition of thymidine eliminated the amplification of dihydrofolate reductase and the enhanced emergence of MTX-resistant clones. Beyond this, an analysis of clones that survive MTX selection indicates that the dihydrofolate reductase gene copy in cells spontaneously resistant to 50 nM MTX and those which resulted after the additional pretreatment with FdUrd for 6 h are comparable with a 2-4-fold amplification of enzyme in most clones. These studies demonstrate that FdUrd enhancement of dihydrofolate reductase expression can have a profound effect upon the incidence and expression of MTX resistance and that dihydrofolate reductase gene amplification may be another basis for antagonism between these agents.     

Calcium effects on progesterone accumulation and oocyte maturation in cultured follicles of Rana pipiens

Pituitary homogenates (FPH) provoke a cascade of responses in the amphibian ovarian follicle, culminating in progesterone biosynthesis and oocyte maturation (GVBD). Calcium may play an important role as an intracellular second messenger in regulating these physiological responses. Experiments were carried out on cultured, isolated follicles of Rana pipiens to assess the effects of varying extracellular calcium on follicular progesterone accumulation and oocyte maturation. In hormonally unstimulated follicles, an increase in extracellular Ca2+ alone produced a significant increase in progesterone in methanol extracts of follicles after 4 hours of culture, and in some cases also provoked oocyte maturation assessed after 24 hours of culture. In no case did elevated Ca2+ alone stimulate maximal progesterone accumulation as compared with FPH-stimulated follicles, although the time-course of accumulation was similar. The calcium ionophore, A-23187, similarly increased progesterone accumulation in a dose-dependent manner when introduced in amphibian Ringer's (1.35 mM Ca2+), but inhibited progesterone elevation caused by increasing calcium concentrations in the culture media and FPH stimulation. Depleting free calcium from the culture medium with graded doses of the chelator EGTA decreased FPH-induced progesterone accumulation and inhibited FPH- and progesterone-induced GVBD. The calcium channel blocker, verapamil, also inhibited FPH-induced progesterone accumulation and GVDB in a dose-dependent manner, while having no effect on progesterone-induced meiotic resumption. These data strongly implicate intracellular calcium levels regulating progesterone production by ovarian follicle cells and subsequent oocyte maturation.     

A Standardized Vascular Disease Health Check in Europe: A Cost-Effectiveness Analysis

Background

No clinical trials have assessed the effects or cost-effectiveness of health check strategies to detect and manage vascular disease. We used a mathematical model to estimate the cost-effectiveness of several health check strategies in six European countries.

Methods

We used country-specific data from Denmark, France, Germany, Italy, Poland, and the United Kingdom to generate simulated populations of individuals aged 40–75 eligible for health checks in those countries (e.g. individuals without a previous diagnosis of diabetes, myocardial infarction, stroke, or serious chronic kidney disease). For each country, we used the Archimedes model to compare seven health check strategies consisting of assessments for diabetes, hypertension, lipids, and smoking. For patients diagnosed with vascular disease, treatment was simulated in a standard manner. We calculated the effects of each strategy on the incidence of type 2 diabetes, major adverse cardiovascular events (MACE), and microvascular complications in addition to quality of life, costs, and cost per quality-adjusted life-year (QALY).

Results

Compared with current care, health checks reduced the incidence of MACE (6–17 events prevented per 1000 people screened) and diabetes related microvasular complications (5–11 events prevented per 1000 people screened), and increased QALYs (31–59 discounted QALYs) over 30 years, in all countries. The cost per QALY of offering a health check to all individuals in the study cohort ranged from €14903 (France) to cost saving (Poland). Pre-screening the population and offering health checks only to higher risk individuals lowered the cost per QALY. Pre-screening on the basis of obesity had a cost per QALY of €10200 (France) or less, and pre-screening with a non-invasive risk score was similar.

Conclusions

A vascular disease health check would likely be cost effective at 30 years in Denmark, France, Germany, Italy, Poland, and the United Kingdom.     

TLR7 agonist,N6-LS and PGT121 delayed viral rebound in SHIV-infected macaques after antiretroviral therapy interruption

Toll-like receptor 7 (TLR7) agonist and PGT121 (broadly neutralizing antibody, bnAb) administration previously delayed viral rebound and induced SHIV remission. We evaluated the impact of GS-986 (TLR7 agonist) and dual bnAbs on viral rebound after antiretroviral therapy (ART) interruption. Rhesus macaques inoculated with SHIV-1157ipd3N4 were initiated on daily suppressive ART from Day 14 post SHIV inoculation. Active arm animals (n = 8) received GS-986, N6-LS and PGT121 after plasma viral suppression, starting from week 14. GS-986 induced immune activation and SHIV-specific T cell responses but not viral expression in all the active arm animals. After ART interruption, median time to viral rebound was 6 weeks in the active and 3 weeks in the control arm (p = 0.024). In this animal model, the administration of the combination of GS-986 and dual bnAbs was associated with a modest delay in viral rebound. This strategy should be further evaluated to better understand the underlying mechanisms for the induction of virus-specific immune responses and delay in viral rebound.     

Identification of the cytochrome P-450 induced by macrolide antibiotics in rat liver as the glucocorticoid responsive cytochrome P-450p

We administered triacetyloleandomycin (TAO) to rats and found that this macrolide antibiotic is the most efficacious inducer of liver microsomal cytochrome P-450 (P-450) examined to date. Liver microsomes prepared from TAO-treated rats contained greater than 5.0 nmol of P-450/mg of protein and a single induced protein as judged by analysis on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. This protein comigrated with P-450p, the major form of P-450 induced in liver microsomes of rats treated with pregnenolone-16 alpha-carbonitrile (PCN) or dexamethasone (DEX). On immunoblots of such gels developed with antibodies to P-450p, the TAO-induced protein reacted strongly as a single band. There was strict parallelism between the amount of immunoreactive P-450p in liver microsomes prepared from untreated rats or from rats treated with phenobarbital, TAO, DEX, or PCN, the ability of these microsomes to catalyze conversion of TAO to a metabolite which forms a spectral complex, and the ethylmorphine and erythromycin demethylase activities. Antibodies to P-450p specifically blocked microsomal TAO metabolite complex formation and ethylmorphine and erythromycin demethylase activities. Moreover, anti-P-450p antibodies completely immunoprecipitated solubilized TAO metabolite complexes prepared by detergent treatment of liver microsomes obtained from TAO-treated rats. Finally, we found that the major form of P-450 isolated from liver microsomes of TAO-treated rats and purified to homogeneity was indistinguishable from purified P-450p as judged by molecular weights, spectral characteristics, enzymatic activities, ability to bind TAO, peptide maps, and amino-terminal amino acid sequences. We concluded that, in addition to glucocorticoids, macrolide antibiotics are specific inducers of P-450p.     

Trafficking and localization studies of recombinant alpha1, 3- fucosyltransferase VI stably expressed in CHO cells

Peripheral alpha1,3-fucosylation of glycans occurs by the action of either one of five different alpha1,3-fucosyltransferases (Fuc-Ts) cloned to date. Fuc-TVI is one of the alpha1,3-fucosyltransferases which is capable to synthesize selectin ligands. The major alpha1, 3- fucosyltransferase activity in human plasma is encoded by the gene for fucosyltransferase VI, which presumably originates from liver cells. While the sequence, chromosomal localization, and kinetic properties of Fuc-TVI are known, immunocytochemical localization and trafficking studies have been impossible because of the lack of specific antibodies. Here we report on the development and characterization of a peptide-specific polyclonal antiserum monospecific to Fuc-TVI and an antiserum to purified soluble recombinant Fuc-TVI crossreactive with Fuc-TIII and Fuc-TV. Both antisera were applied for immunodetection in stably transfected CHO cells expressing the full-length form of this enzyme (CHO clone 61/11). Fuc-TVI was found to be a resident protein of the Golgi apparatus. In addition, more than 30% of cell-associated and released enzyme activity was found in the medium. Maturation and release of Fuc-TVI was analyzed in metabolically labeled CHO 61/11 cells followed by immunoprecipitation. Fuc-TVI occurred in two forms of 47 kDa and 43 kDa bands, while the secreted form was detected as a 43 kDa. These two different intracellular forms arose by posttranslational modification, as shown by pulse-chase experiments. Fuc-TVI was released to the supernatant by proteolytic cleavage as a partially endo-H resistant glycoform.      

Membrane protein changes in an L1210 leukemia cell line with a translocation defect in the methotrexate-tetrahydrofolate cofactor transport carrier

We report on membrane protein changes in an L1210 leukemia cell line with a highly specific defect in the function of the methotrexate (MTX)-tetrahydrofolate cofactor transport carrier. This clonal line, MTXrA, made 100-fold resistant to MTX, was derived in a single step and exhibited stable resistance over 120 generations in the absence of drug. The transport defect was associated with a 10-fold decrease in influx Vmax without a change in influx Km. There was no difference between the MTXrA and parent lines in the levels or affinities of specific cell surface binders for MTX nor in the labeling of the 44-kDa membrane protein upon treatment with the specific affinity label, N-hydroxysuccinimide ester of tritiated MTX. Consistent with impaired carrier function was the observation that trans-stimulation of MTX influx by intracellular 5-formyltetrahydrofolate observed in the parent line was not demonstrated in the MTXrA line. The transport defect was highly specific for the MTX-tetrahydrofolate cofactor transport carrier. Initial uptake rates for 5-fluoro-2'-deoxyuridine and 2-deoxyglucose were unchanged and influx and net transport of alpha-aminoisobutyric acid were, in fact, increased. There was no cross-resistance of this line to phenylalanine mustard or cytosine arabinoside, agents that utilize specific amino acid and nucleoside transport carriers, respectively. SDS-polyacrylamide gel electrophoresis of purified plasma membrane preparations stained with Coomassie Blue revealed several protein differences between the parental and MTXrA lines. Most prominent is a band at approximately 190 kDa which ran with slightly greater mobility than a lesser staining band in the parent line. [3H]Borohydride labeling of cells also identified a distinct protein peak in the MTXrA line at approximately 190 kDa eliminated by prior treatment of cells with neuraminidase. Absence of expression of protein or mRNA related to the multidrug resistance gene as well as lack of cross-resistance to daunorubicin or trimetrexate indicate that this mechanism of resistance to MTX is completely unrelated to the multidrug resistance phenomenon observed with high molecular weight heterocyclic compounds. These data represent the first demonstration of membrane protein differences in a highly resistant L1210 murine leukemia cell line with a marked unique defect in MTX transport which appears to be related to impaired mobility of the tetrahydrofolate-cofactor carrier. Further studies are now required to elucidate the possible role of one or more of these proteins in the transport defect.