Influence of subunit interactions on lutropin specificity. Implications for studies of glycoprotein hormone function.

Bovine lutropin (bLH) and human chorionic gonadotropin (hCG) are heterodimeric glycoprotein hormones required for reproduction. Both bind rat LH receptors (rLHRs), but hCG binds human LH receptors (hLHRs) 1000-10,000 fold better than bLH. We tested the premise that this difference in affinity could be used to identify lutropin receptor contacts.

The groove between the alpha- and beta-subunits of hormones with lutropin (LH) activity appears to contact the LH receptor, and its conformation is changed during hormone binding.

Gonadotropins are heterodimeric glycoprotein hormones that control vertebrate fertility through their actions on gonadal lutropin (luteinizing hormone, LH) and follitropin (follicle-stimulating hormone, FSH) receptors. The beta-subunits of these hormones control receptor binding specificity; however, the region of the beta-subunit that contacts the receptor has not been identified. By a process of elimination we show this contact to be the portions of beta-subunit loops one and three found in a hormone groove created by the juxtaposition of the alpha- and beta-subunits.

Protein kinase C modulates effects of prostanoids on cyclic adenosine monophosphate in guinea pig chief cells.

In the course of examining the role of protein kinase C in signal transduction in dispersed chief cells from guinea pig stomach, we observed that phorbol esters inhibit prostaglandin (PG)-stimulated increases in cyclic adenosine monophosphate (cAMP). Phorbol 12-myristate 13-acetate (PMA), an activator of protein kinase C, decreased maximal levels of PGE2-stimulated cAMP by 40%. This dose-dependent effect was observed within 30 sec and was maximal by 1 min of incubation at 37 degrees C.

Differential actions of phosphodiesterase inhibitors on secretin- and vasoactive intestinal peptide-induced increases in chief cell cAMP.

The actions of three different phosphodiesterase inhibitors, theophylline, 3-isobutyl-1-methylxanthine (IBMX) and Ro 20-1724 (Ro), on cellular cAMP and pepsinogen secretion from dispersed chief cells prepared from guinea pig stomach were examined. The relative order of potency for increasing cAMP and pepsinogen secretion was Ro greater than IBMX greater than theophylline. Ro, the most efficacious agent, caused a 17-fold increase in basal cAMP and a similar augmentation of the increase in cAMP caused by secretin or vasoactive intestinal peptide (VIP).

Relation of prostaglandin-induced increases in cellular cAMP to stimulation of pepsinogen secretion from dispersed chief cells.

The actions of prostaglandins (PG) on cAMP in dispersed chief cells from guinea pig stomach were examined and compared to the actions of these agents on pepsinogen secretion. Maximal concentrations of A, B, or E prostaglandins caused a 2-5-fold increase in pepsinogen secretion and cellular cAMP. The relative order of potency for these actions was PGEs greater than PGAs greater than PGBs.

Interaction between the calcium and adenylate cyclase messenger systems in dispersed chief cells from guinea pig stomach. Possible cellular mechanism for potentiation of pepsinogen secretion.

To determine the role of the adenylate cyclase system in potentiation of enzyme secretion, we used cholera toxin to activate adenylate cyclase before examining the effects of agents on chief cell cAMP and pepsinogen secretion. Dispersed chief cells were obtained from guinea pig stomach by fractionation of mucosal cells on a Percoll gradient. Incubation of cells with 100 nM cholera toxin for 90 min and subsequent incubation with carbachol or cholecystokinin resulted in augmentation of cellular cAMP and potentiation of pepsinogen secretion.

Actions of cholera toxin on dispersed Chief cells from guinea pig stomach.

Although much is known about the actions of cholera toxin on intestinal and extra-gastrointestinal tissues, almost nothing is known about the interaction of this toxin with cells in the stomach. In the present study, we prepared 125I-labeled cholera toxin (1900 Ci/mmol) and examined the binding of this radioligand to dispersed Chief cells from guinea pig stomach. Moreover, we examined the actions of cholera toxin on cellular cAMP and pepsinogen secretion from Chief cells.

Increases in cellular calcium concentration stimulate pepsinogen secretion from dispersed chief cells.

Intracellular calcium concentration ([Ca]i) and pepsinogen secretion from dispersed chief cells from guinea pig stomach were determined before and after stimulation with calcium ionophores. [Ca]i was measured using the fluorescent probe quin2. Basal [Ca]i was 105 +/- 4 nM.

DNA metabolism during infection of Anacystis nidulans by cyanophage AS-1. VII. UV-induced alterations of the AS-1/A. nidulans lytic cycle.

In order to interfere specifically with either the host of phage DNA metabolism and separate the effects of new phage DNA synthesis from the effects of host cell breakdown and PIL-DNA formation, UV irradiation of either the host, A. nidulans, or intact phage AS-1, prior to infection was utilized. Several conclusions were reached.