Synthesis of 2',3'-O-(2,4,6-trinitrocyclohexadienylidine)guanosine 5'-triphosphate and a study of its inhibitory properties with adenylate cyclase

Synthesis of a fluorescent 7-methylguanosine analog and a fluorescence spectroscopic study of its reaction with wheatgerm cap binding proteins

In the initiation of protein synthesis, the mRNA 5'-terminal 7-methylguanosine cap structure and several recognition proteins play a pivotal role. For the study of this cap binding reaction, one approach is to use fluorescence spectroscopy. A ribose diol-modified fluorescent cap analog, anthraniloyl-m7GTP (Ant-m7GTP), was designed and synthesized for this purpose. This fluorescent cap analog was found to have a high quantum yield, resistance to photobleaching and avoided overlap of excitation and emission wavelengths with those of proteins. The binding of Ant-m7GTP with wheatgerm initiation factors elF-4F and elF-(iso)4F was determined. The fluorescent cap analog and m7GTP had similar interactions with both cap binding proteins. Fluorescence quenching experiments showed that the microenvironment of Ant-m7GTP when bound to protein was hydrophobic.

Identification of the guanine binding domain peptide of the GTP-binding site of glucagon

Glucagon, a peptide hormone synthesized and secreted by alpha islet cells, regulates glucose homeostasis by several mechanisms. Using [gamma 32P]8N3GTP, a proven photoaffinity probe for GTP, a specific nucleotide binding site on human glucagon was detected that showed preference for GTP. Half-maximal saturation of photoinsertion into the polypeptide hormone was at 8-12 microM with either [alpha 32P]8N3GTP or [gamma 32P]8N3GTP. GTP protected photolabeling with an apparent kd of 15 microM, whereas ATP was less effective as a protector, exhibiting an apparent kd of about 30 microM. Maximal protection by GTP and ATP was over 90%. UTP, CTP, GDP, ADP, GMP, AMP, guanosine, adenosine, guanine, and adenine were much less effective protectors, indicating that binding is specific for purine nucleoside triphosphates, particularly GTP. Mg2+ at 150 microM enhanced photoinsertion (twofold), whereas at 2-10 mM, it inhibited photoinsertion. Both Ca2+ and Zn2+ at 0.2 mM decreased photoinsertion about 45%. Purification of chymotryptic and tryptic digests of photolabeled glucagon by reverse-phase high performance liquid chromatography (HPLC) revealed that the N-terminal peptide, HSQGTF, was the only peptide region covalently photomodified by [32P]8N3GTP. GTP, if present during photolysis, greatly reduced both photoinsertion into glucagon and the amount of radiolabeled peptide recovered on HPLC. The specificity of binding to the N-terminal region is suggestive of a physiological role for a glucagon-GTP complex in the mechanism of action of this hormone.

Aberrant guanosine triphosphate-beta-tubulin interaction in Alzheimer's disease

Guanosine triphosphate (GTP) is an absolute requirement for tubulin polymerization in situ. The nucleotide photoaffinity probe 8-azidoguanosine 5'-triphosphate (8N3GTP) has been shown to be a biological mimic of GTP in this system and, also, an effective active site probe of the exchangeable GTP binding site. Using [32P]8N3GTP we demonstrate that the exchangeable GTP site of the beta subunit of tubulin is available to added guanine nucleotide in normal aged brain homogenates, whereas it is variably unavailable in Alzheimer's diseased brain. Inability of 8N3GTP to photolabel beta tubulin appears to be associated with neurofibrillary tangle density. These results support the hypothesis that microtubule formation is abnormal in brains affected by Alzheimer's disease.

Decreased 8N3-[gamma-32P]GTP photolabeling of Gs alpha in tumorigenic lung epithelial cell lines: association with decreased hormone responsiveness and loss of contact-inhibited growth

The 45-kDa alpha subunit of the signal transducing Gs protein complex, which stimulates receptor-coupled adenylate cyclase, incorporated less of the photoaffinity probe, 8N3-[gamma-32P]GTP, in extracts from tumorigenic cell lines in comparison with nontumorigenic cell lines derived from mouse lung epithelium. Immunoblotting experiments using anti-Gs alpha antibodies demonstrated that tumor cells do not have a decreased amount of Gs alpha and photolabeling of tumor cell Gs alpha increased when the rate of nucleotide exchange was promoted. Therefore, tumor cell Gs alpha function may be altered. Consistent with this hypothesis is the observation that the tumor cells exhibited decreased responsiveness to the beta-adrenergic agonist, isoproterenol. Gs alpha photolabeling in growing nontumorigenic cells was reduced to a level resembling that observed in tumor cells, but photolabeling increased when cells became contact-inhibited. This increase in 8N3-[gamma-32P]GTP incorporation into Gs alpha by normal cells at confluence was not seen in the tumorigenic cells. Since Gs alpha photolabeling was inversely proportional to the percentage of [3H]thymidine-labeled nuclei at confluence, we suggest that the altered Gs alpha in tumor cells is involved in the loss of cell growth regulation.

Decreased incorporation of the photoaffinity probe 8N3-[gamma-32P]-GTP into a 45kD protein in lung tumors

Photoincorporation of 8N3-[gamma-32P]-GTP into tissue and cell extracts was examined using gel electrophoresis and autoradiography. Decreased photoincorporation into a 45kD band was observed in extracts from mouse lung tumors as compared to normal mouse lung, and in extracts from lung tumor-derived cell lines when compared to isolated bronchiolar epithelial cells. Decreased 45kD photolabelling was also observed in extracts of S49 lymphoma cyc- cells (deficient in Gs alpha, a 45kD GTP binding protein of receptor-coupled adenylate cyclase) when compared to wild type S49 cells. This, and the observation that there was no cholera toxin-catalyzed ADP-ribosylation in the 45kD band of lung tumor extracts, suggests that the 45kD band contains Gs alpha.