Extraction of chlorinated aliphatic hydrocarbons from groundwater at micromolar concentrations for isotopic analysis of chlorine.

A method is described for near-quantitative extraction of micromolar concentrations of chlorinated aliphatic hydrocarbons (CAHs) from water for determination of chlorine (Cl) isotope ratios. A low pressure, carrier-gas procedure of extraction was proven to be applicable to CH2Cl2, CCl4, C2H2Cl2, and C2HCl3. The pH of the water was adjusted with NaOH to prevent extraction of CO2 from air and/or dissolved inorganic carbonate species. Recoveries of CAH samples (approximately 15 mumol), added to and extracted from approximately 340 ml of water, averaged approximately 96%. Average changes in the delta 37Cl values of the CAHs, attributable to the extraction process, were -0.01 +/- 0.06@1000. Significant isotopic fractionation of Cl was measured during partial extraction of C2CHCl3 from water, indicating that near-quantitative extraction is required for reliable stable Cl isotope analysis of CAHs. This method is also suitable for the extraction of dissolved CAH for gas chromatography-combustion-isotope ratio mass spectrometric measurements of hydrogen and carbon.

Simultaneous coupling of alpha 2-adrenergic receptors to two G-proteins with opposing effects. Subtype-selective coupling of alpha 2C10, alpha 2C4, and alpha 2C2 adrenergic receptors to Gi and Gs.

Coupling of the three alpha 2-adrenergic receptor (alpha 2AR) subtypes to Gi and Gs was studied in membranes from transfected CHO cells. We observed that in the presence of low concentrations of the alpha 2AR agonist UK-14304, alpha 2C10 mediated inhibition of adenylyl cyclase activity, whereas at high concentrations of agonist, alpha 2C10 mediated stimulation of adenylyl cyclase activity. We considered that this biphasic response was due to the coupling of alpha 2C10 to both Gi and Gs. To isolate functional Gs and Gi coupling, cells were treated with pertussis toxin or cholera toxin in doses sufficient to fully ADP-ribosylate the respective G-proteins. Following treatment with cholera toxin, agonists elicited only alpha 2C10-mediated inhibition (approximately 50%) of adenylyl cyclase while after pertussis toxin treatment, agonists elicited only alpha 2C10-mediated stimulation (approximately 60%) of adenylyl cyclase. Incubation of membranes with antisera directed against the carboxyl-terminal portion of Gs alpha blocked this functional alpha 2AR.Gs coupling to the same extent as that found for beta 2AR.Gs coupling. In addition to functional Gs coupling, we also verified direct, agonist-dependent, physical coupling of alpha 2AR to Gs alpha. In agonist-treated membranes, an agonist-receptor-Gs alpha complex was immunoprecipitated with a specific alpha 2C10 antibody, and the Gs component identified by both western blots using Gs alpha antibody, and cholera toxin mediated ADP-ribosylation. Due to the differences in primary amino acid structure in a number of regions of the alpha 2AR subtypes, we investigated whether G-protein coupling was subtype-selective, using UK-14304 and cells with the same alpha 2AR expression levels (approximately 5 pmol/mg). Coupling to Gi was equivalent for alpha 2C10, alpha 2C4, and alpha 2C2: 53.4 +/- 8.8% versus 54.9 +/- 1.0% versus 47.6 +/- 3.5% inhibition of adenylyl cyclase, respectively. In marked contrast, distinct differences in coupling to Gs were found between the three alpha 2AR subtypes: stimulation of adenylyl cyclase was 57.9 +/- 6.3% versus 30.7 +/- 1.1% versus 21.8 +/- 1.7% for alpha 2C10, alpha 2C4, and alpha 2C2, respectively. Thus, alpha 2AR have the potential to couple physically and functionally to both Gi and Gs; for Gi coupling we found a rank order of alpha 2C10 = alpha 2C4 = alpha 2C2, while for Gs coupling, alpha 2C10 greater than alpha 2C4 greater than alpha 2C2.

Long-term agonist exposure induces upregulation of beta 3-adrenergic receptor expression via multiple cAMP response elements.

During continuous stimulation by agonist, beta 1- and beta 2-adrenergic receptors (ARs) undergo processes that lead to decreases in receptor expression. This receptor down-regulation serves to limit the cellular cAMP response during chronic agonist exposure. In the recently described third subtype of the beta AR, denoted beta 3AR, we found four potential cAMP response elements in the 5' flanking region, suggesting that expression of this receptor might be positively regulated by agonists. These elements were cloned into the vector pA10CAT2, which contains a chloramphenicol acetyltransferase reporter gene, and transiently expressed in VERO cells. Three of these elements, TGACTCCA, TGAGGTCT, and CGAGGTCA (located 518, 622, and 1125 bases upstream of the beta 3AR coding block, respectively) were found to increase transcription of the chloramphenicol acetyltransferase gene in response to cAMP analogues and agents that increase intracellular cAMP. 3T3-F442A cells, when differentiated into the adipocyte phenotype by insulin, expressed beta 3AR, and nuclear runoff studies from such cells confirmed cAMP enhancement of beta 3AR mRNA transcription. In these cells, beta 3AR mRNA increased in response to exposure to the beta 3AR agonist isoproterenol and remained elevated during exposures of up to 24-30 hr. During prolonged exposure to agonist, no downregulation of beta 3AR expression in 3T3-F442A cells occurred. Indeed, beta 3AR expression increased during agonist exposure to approximately 165% of basal expression. In marked contrast, beta 1AR expression declined by approximately 70% in response to chronic agonist exposure. These studies reveal a subtype-specific prolonged transcriptional regulation of a beta AR gene by the end product of its signal transduction pathway. Thus, the beta 3AR undergoes a paradoxical increase in receptor expression during chronic agonist exposure.

Beta 1- and beta 2-adrenergic receptors display subtype-selective coupling to Gs.

beta-Adrenergic receptor (beta AR) subtypes differ in their affinities for some agonists and antagonists and thus may potentially impart different cellular effects based on this ligand-binding specificity. However, the possibility that there may be subtype-specific events subsequent to ligand binding has not been evaluated extensively. In particular, although beta ARs stimulate adenylyl cyclase by coupling to the guanine nucleotide-binding protein Gs, no studies have directly assessed the coupling efficiencies among isolated beta AR subtypes. We, therefore, permanently transfected the mammalian fibroblast cell line CHW-1102 with beta 1- or beta 2AR cDNAs and studied the coupling characteristics of these two receptor subtypes, each expressed at approximately 335 fmol/mg of protein. Both receptors mediated equivalent maximal increases in adenylyl cyclase activities (6.63 +/- 1.85-fold for beta 1AR versus 6.10 +/- 0.53-fold for beta 2AR; p = not significant). However, the isoproterenol dose-response curves for the beta 2AR were shifted to the left, compared with those for the beta 1AR (EC50 of 52.3 +/- 2.87 nM and 191 +/- 10.5 nM, respectively; p less than 0.05), resulting in an approximately 4-fold greater potency for the beta 2AR versus the beta 1AR. Thus, at the submaximal isoproterenol concentration of 30 nM, the beta 2AR stimulated adenylyl cyclase approximately 50% more than did the beta 1AR. This finding was not due to a difference in the affinities of isoproterenol for these receptors, which were found to be the same, as determined by competition binding studies with 125I-cyanopindolol in the presence of GTP. The ability of beta 1- and beta 2ARs to form the high affinity ternary complex was assessed in agonist competition studies without guanine nucleotide. We found that, whereas the proportion of receptors in the high affinity state was equivalent between the two receptor subtypes, the affinity of this state for isoproterenol was approximately 5-fold greater for the beta 2AR, compared with the beta 1AR (KH for beta 2AR, 11.8 +/- 3.1 nM; KH for beta 1AR, 61.7 +/- 18.3 nM; p less than 0.05). In addition, we examined physical and functional coupling of beta 1- and beta 2ARs to Gs using the agonist epinephrine, which also has equal binding affinity for both receptor subtypes. As with isoproterenol, epinephrine was more potent in stimulating adenylyl cyclase and promoted a higher affinity ternary complex for the beta 2AR. Thus, a greater degree of both physical and functional agonist-promoted coupling occurs between Gs and beta 2AR, compared with beta 1AR. We conclude that coupling to Gs by beta 1- and beta 2ARs is subtype selective and is a potentially important distinguishing feature among these members of the beta AR family.

Primary sulfates in atmospheric sulfates: estimation by oxygen isotope ratio measurements.

The relative amounts of primary and secondary sulfates in atmospheric aerosols and precipitation can be estimated from measurements of the stable oxygen isotope ratios. The oxygen-18 content of sulfates formed in power plant stack gases before emission into the atmosphere is significantly higher than that of sulfates formed from sulfur dioxide after emission. Results show that 20 to 30 percent of the sulfates in rain and snow at Argonne, Illinois, are of primary origin.