Regulation of adenylate cyclase activity and stimulation response in relation to endometrial receptivity in the rabbit

Adenylate cyclase activity was measured in broken cell preparations of whole endometrial tissue from rabbits on Days 0, 1, 6.5, 9 and 15 of pseudopregnancy and in endometrial epithelial and stromal cells on Days 1 and 6.5 to assess the specific response of individual cell types. In dispersed cells, adenylate cyclase activity was higher (P less than 0.01) in stromal than in epithelial cells and reduced on Day 6.5 compared to Day 1 in both cell types. The response of adenylate cyclase to isoproterenol appeared more important relative to the PGE-2 response in epithelial than in stromal cells and strongly reduced in the former on Day 6.5. In endometrium, the overall adenylate cyclase activity was increased significantly on Day 1 of pseudopregnancy compared to Day 0 (oestrus), only 18 h after injection of hCG. On the following days, the activity decreased progressively on Days 6.5 and 9 and exhibited a recovery on Day 15. Adenylate cyclase response to isoproterenol (% over GTP) was comparable on Days 0, 1 and 6.5, abolished on Day 9 and recovered on Day 15. Maximal response to PGE-2 (% over GTP) was observed on Day 6.5, at the time of implantation, maintained on Day 9 and reduced on Day 15 towards the low levels measured in oestrus and Day 1 of pseudopregnancy. Our results demonstrate a dramatic alteration of adenylate cyclase activity in rabbit endometrium during pseudopregnancy. It suggests a possible involvement of catecholamines and prostaglandin E-2 in the regulation of endometrial receptivity through a cAMP-mediated process.     

Reactivation of allergic encephalomyelitis by means of allogeneic confrontation

Lewis rats recovered from experimental allergic encephalomyelitis (EAE) are resistant to active reinduction of disease. (DA X Lewis)F1 hybrids behave in an identical fashion. The induction of a graft versus host (GVH) reaction in EAE convalescent (DA X Lewis)F1 rats, by injection of normal parental (Lewis) lymphocytes, precipitates a second episode of EAE in a proportion of rats. This secondary episode of EAE can be induced by injection of parental cells either systemically (intravenously) or locally (subcutaneously in the foot). A host versus graft (HVG) reaction does not reactivate EAE in the convalescent host. The observed effect is probably due to reactivation of EAE effector cells following the extensive nonspecific proliferation of host lymphoid cells which is a feature of GVH reactivity.     

Sensitized (T6 x RFM)F1 donor B cells contribute to hypergammaglobulinemia and to poor primary responses in RFM mice with allogenic host versus graft disease

Experimental host versus graft (HVG) disease is the fatal immunodeficiency syndrome which is induced in susceptible strains of inbred mice by the perinatal inoculation of related F1 hybrid spleen cells. The allogenic HVG reaction results in severe T-cell depletion, but hyperplasia of B cells, of which some are F1 donor in origin. To investigate the role of F1 donor B cells in the development of hyperglobulinemia in HVG mice which respond poorly to primary antigenic challenge, antibodies to horseradish peroxidase (HRP) of (T6 x RFM)F1 donor B-cell origin were used as markers for the engraftment of primed donor B cells in RFM hosts, and as sequential measures of the allogenic reaction on them. F1 donor B cells sensitized to HRP survived different stages of the HVG reaction after inoculation on Day 1 or Day 8 after birth. Tests for the anti-HRP antibody output of RFM host cells, and engrafted HRP-primed and unprimed (T6 x RFM)F1 donor cells suggested that the hyperglobulinemia seen in HVG mice was caused principally by antigen-primed, F1 donor B cells stimulated by the allogenic effect, with or without further exposure to the antigen(s) to which the donors had been sensitized prior to transplantation. The poor primary responses were attributed to the engraftment of the many donor B cells already committed, to the immunological immaturity of the host B cells, and to the lack of T-cell help for adult unprimed F1 donor B cells. Taken together with previous work, the data also suggest that antigen-primed donor B cells were engrafted in preference to equally histoincompatible donor T cells and unprimed donor B cells.     

Immunosuppressive role of the liver in the graft versus host reaction]

The ability of the liver to reduce the intensity of the graft versus host (GVH) reaction has been investigated in F1 hybrid rats implanted with parental lymph nodes. Intrahepatic and intrarenal tissue implantations were compared using classical GVH criteria. The intrahepatic implantation of lymph nodes suppress the mortality observed after intrarenal implantation. The results confirm the interest of portal drainage in organ transplantation and suggest a new site of implantation for lymphoid cells.     

Guanine nucleotide-independent inhibition of adenylate cyclase by a stimulatory hormone.

Stimulation of basal adenylate cyclase activity in membranes of neuroblastoma x glioma hybrid cells by prostaglandin E1 (PGE1) is half-maximal and maximal (about 8-fold) at 0.1 and 10 microM respectively. This hormonal effect requires GTP, being maximally effective at 10 microM. However, at the same concentrations that stimulate adenylate cyclase in the presence of GTP, PGE1 inhibited basal adenylate cyclase activity when studied in the absence of GTP, by maximally 60%. A similar dual action of PGE1 was observed with the forskolin-stimulated adenylate cyclase, although the potency of PGE1 in both stimulating and inhibiting adenylate cyclase was increased and the extent of stimulation and inhibition of the enzyme by PGE1 was decreased by the presence of forskolin. The inhibition of forskolin-stimulated adenylate cyclase by PGE1 occurred without apparent lag phase and was reversed by GTP and its analogue guanosine 5'-[gamma-thio]triphosphate at low concentrations. Treatment of neuroblastoma x glioma hybrid cells or membranes with agents known to eliminate the function of the inhibitory GTP-binding protein were without effect on PGE1-induced inhibition of adenylate cyclase. The data suggest that stimulatory hormone agonist, apparently by activating one receptor type, can cause both stimulation and inhibition of adenylate cyclase, and that the final result depends only on the activity state of the stimulatory GTP-binding protein, Gs. Possible mechanisms responsible for the observed adenylate cyclase inhibition by the stimulatory hormone PGE1 are discussed.     

Forskolin-resistant Y1 mutants harbor defects associated with the guanyl nucleotide-binding regulatory protein, Gs

The properties of the adenylate cyclase from forskolin-resistant mutants of Y1 adrenocortical tumor cells was compared with the properties of the enzyme from parental Y1 cells in order to localize the site of mutation. In parental Y1 cells, forskolin stimulated adenylate cyclase activity with kinetics suggestive of an interaction at two sites; in mutant cells, forskolin resistance was characterized by a decrease in enzymatic activity at both sites. Forskolin potentiated the enzyme's responses to NaF and guanyl-5'-yl imidodiphosphate (Gpp(NH)p) in parent and mutant clones, and the mutant enzyme showed the same requirements for Mg2+ and Mn2+ as did the parent enzyme. The adenylate cyclase associated with forskolin-resistant mutants was insensitive to ACTH and was less responsive to Gpp(NH)p than was the parent enzyme. In parental Y1 cells and in the forskolin-resistant mutants, cholera toxin catalyzed the transfer of [32P]ADP-ribose from [32P]NAD+ into three membrane proteins associated with the alpha subunit of Gs; however, the amount of labeled ADP-ribose incorporated into mutant membranes was reduced by as much as 70%. Both parent and mutant membranes were labeled by pertussis toxin to the same extent. The insensitivity of the mutant adenylate cyclase to ACTH and Gpp(NH)p and the selective resistance of the mutant membranes to cholera toxin-catalyzed ADP-ribosylation suggest that a specific defect associated with Gs is involved in the mutation to forskolin resistance in Y1 cells.     

Expression of genes for metabolism of cyclic adenosine 3':5'-monophosphate in somatic cells. beta-Adrenergic and PGE1 receptors in parental and hybrid cells.

Using the ligands [125I]iodohydroxybenzylpindolol and [3H]prostaglandin E1 ([3H]PGE1), we have studied the relationship of receptors for beta-adrenergic agents and for PGE1 to adenylate cyclase in membranes of parental, hybrid, and variant mammalian cell lines. Fusion of parental clones responsive to beta-adrenergic agonists (beta+) with unresponsive clones (beta-) produced hybrid clones with a greatly diminished beta-adrenergic response; beta+ X beta leads to beta-. Binding studies with [125I]iodohydroxybenzylpindolol showed a decreased concentration of beta receptors in six such hybrid clones. Thus, paucity of beta-adrenergic receptors is probably a sufficient, albeit not necessarily complete, explanation for the decreased beta-adrenergic responsiveness of the hybrid clones. When a clone with beta receptor but without apparent adenylate cyclase activity (HC-1) was hybridized with a beta- clone that has adenylate cyclase (B82), a responsive hybrid clone was obtained. In nine cell hybrids produced by the fusion of clones responsive (PGE1+) and unresponsive (PGE1-) to PGE1, high affinity binding sites for [3H]PGE1 were expressed in the same manner as was PGE1-sensitive adenylate cyclase: PGE1+ X PGE1 leads to PGE1+. The chemical specificities and affinities of the parental receptors and responsive adenylate cyclases were faithfully reproduced in the hybrid clones. Activation by PGE1 was proportional to the occupation of the high affinity receptors. In a wild type lymphoma clone (24.3.2), the concentration dependences for binding of [3H]PGE1 and for activation of adenyalte cyclase by PGE1 were identical. In a variant lymphoma clone (94.15.1) lacking adenylate cyclase activity, no high affinity receptors for PGE1 were detected, whereas beta-adrenergic receptors have been demonstrated in this variant clone (Insel, P.A., Maguire, M.E., Gilman, A.G., Coffino, P., Bourne, H., and Melmon, K. (1976) Mol. Pharmacol. 12, 1062-1069). Hybrid cells formed by the fusion of 94.15.1 with cell line RAG (PGE1-) responded to PGE1. Clone 94.15.1 may have receptors for PGE1 of reduced affinity or in low concentration. Alternatively, RAG and 94.15.1 may have complementary genetic defects such that the RAG X 94.15.1 hybrid cells express a hormonally responsive receptor-adenylate cyclase system.     

Improving in vitro development of cloned bovine embryos with hybrid (Holstein-Chinese Yellow) recipient oocytes recovered by ovum pick up

In the present study, oocytes from F1 hybrid cattle, as well as their parental lines, were recovered by ovum pick up (OPU) and used as recipient cytoplasm for somatic cell nuclear transfer (SCNT). Four F1 hybrid (Holstein dam x Chinese Yellow sire), 10 Holstein and four Chinese Yellow cattle were subjected to OPU once weekly. There were no significant differences among breeds for number of recovered oocytes per session (overall average, 7.8+/-0.5; mean+/-S.E.M.), quality of the recovered oocytes, or oocyte maturation rate (72-73%). Matured oocytes were all used as recipient cytoplasm (without selection) and a single batch of cumulus cells collected from a Holstein cow were used as donor cells. Although reconstructed embryos initiated cleavage sooner when the recipient cytoplasm was from hybrid cattle versus the two parental breeds, the overall cleavage rate was indistinguishable among breeds. At Day 8, the blastocyst rate from the cleaved embryos (51% versus 37% and 27%), the total number of cells per blastocyst (135+/-4.1 versus 116+/-3.6 and 101+/-4.2), and the percentage of Grade-A (excellent quality) blastocysts (54% versus 42% and 29%) in the hybrid group were all higher than that of Holstein and Yellow groups. Furthermore, the proportion of blastocysts obtained at Day 7 (as a percentage of the total number of blastocysts) was greater in the hybrid group than in Holstein and Yellow groups (89% versus 71% and 63%). In conclusion, the use of F1 hybrid oocytes as recipient cytoplasm significantly improved in vitro development of cloned bovine embryos relative to oocytes derived from the parental lines.     

Structure-function studies of the adenylate cyclase toxin of Bordetella pertussis and the leukotoxin of Pasteurella haemolytica by heterologous C protein activation and construction of hybrid proteins.

The adenylate cyclase toxin (CyaA) from Bordetella pertussis and the leukotoxin (LktA) from Pasteurella haemolytica are members of the RTX (stands for repeats in toxin) family of cytolytic toxins. They have pore-forming activity and share significant amino acid homology but show marked differences in biological activity. CyaA is an invasive adenylate cyclase and a weak hemolysin which is active on a wide range of mammalian cells. LktA is a cytolytic protein with a high target cell specificity and is able to lyse only leukocytes and platelets from ruminants. Each toxin is synthesized as an inactive protoxin encoded by the A gene, and the product of the accessory C gene is required for posttranslational activation. Heterologous activation of LktA by CyaC did not result in a change in its specificity for nucleated cells, although the toxin showed a greater hemolytic-to-cytotoxic ratio. LktC was unable to activate CyaA. A hybrid toxin (Hyb1), which contained the N-terminal enzymic domain and the pore-forming domain from CyaA (amino acids [aa] 1 to 687), with the remainder of the protein derived from the C-terminal end of LktA (aa 379 to 953), showed no toxic activity. Replacement of part of the LktA C-terminal domain of Hyb1 by the CyaA C-terminal domain (aa 919 to 1706) to create hybrid toxin 2 (Hyb2) partially restored toxic activity. In contrast to CyaA, Hyb2 was activated more efficiently by LktC than by CyaC, showing the importance of the region between aa 379 and 616 of LktA for activation by LktC. LktC-activated Hyb2 was more active against ruminant than murine nucleated cells, whereas CyaC-activated Hyb2 displayed a similar, but lower, activity against both cell types. These data indicate that LktC and the region with which it interacts have an influence on the target cell specificity of the mature toxin.     

Specific Muscarinic-Cholinergic Desensitization in the Neuroblastoma-Glioma Hybrid NG108-15

Abstract: The cholinergic agonist carbachol, epinephrine, and the opiate morphine all inhibit prostaglandin E₁ (PGE₁)-stimulated adenylate cyclase in homogenates from the neuroblastoma-glioma hybrid NG108-15. Pretreatment of the hybrid with 100 μ M carbachol resulted in the rapid loss (desensitization) of the carbachol inhibition of adenylate cyclase (tM_1/2< 3 min). The desensitization of the carbachol inhibition was blocked by 0.1 μ M atropine. Pretreatment with carbachol (1–24 h) did not significantly affect the inhibition of adenylate cyclase by either epinephrine or morphine, nor did it alter the PGE₁-stimulated activity, that is, no supersensitization was observed. Cholate extracts of the particulate fraction from either carbachol-desensitized or of control NGlOS-15 were able to reconstitute adenylate cyclase activities of the coupling proteins (G/F)-deficient cyclymphoma cell membranes with equal efficacy. These results suggested that the coupling proteins of the adenylate cyclase were not altered by the carbachol pretreatment and that desensitization occurs at the receptor or at a receptor-associated level. However, the possibility remained that specific domains of the G/F, which interact only with muscarinic receptors, were altered.     

Modulation of adenylate cyclase in human keratinocytes by protein kinase C

Adenylate cyclase (ATP-pyrophosphate lyase (cyclizing); EC 4.6.1.1) in the human keratinocyte cell line SCC 12F was potentiated by 12-O-tetradecanoyl-phorbol-13-acetate (TPA), phorbol-12,13-diacetate, and 1,2-dioctanoylglycerol. Keratinocytes exposed to TPA showed a 2-fold enhancement of adenylate cyclase activity when assayed in the presence of isoproterenol or GTP. The half-maximal effective concentration (EC50) for both isoproterenol and GTP were unaltered by TPA treatment of the cells. Basal adenylate cyclase activity in membranes from TPA-treated cultures was also increased 2-fold relative to activity in control membranes. Potentiation of adenylate cyclase activity was dependent on the concentration of TPA to which the keratinocytes were exposed (EC50 for TPA = 3 nM). TPA actions on adenylate cyclase were maximal after 15 min of incubation of the cells with the compound, correlating well with the time course of translocation of protein kinase C (Ca2+/phospholipid-dependent enzyme) from cytosol to membrane. The action of cholera toxin on adenylate cyclase was additive with TPA. In contrast, pertussis toxin actions on adenylate cyclase were not additive with TPA. Treatment of control cells with pertussis toxin activated adenylate cyclase 1.5-fold, whereas cells exposed to pertussis toxin for 6 h followed by TPA for 15 min showed the same 2-fold increase in adenylate cyclase activity as observed in membranes from cells exposed to TPA without prior exposure to pertussis toxin. Pertussis toxin catalyzed ADP-ribosylation was increased 2-fold in membranes from SCC 12F cells exposed to TPA, indicating an increase in the alpha beta gamma form of Gi. These data suggest that exposure of human keratinocytes to phorbol esters increases adenylate cyclase activity by a protein kinase C-mediated increase in the heterotrimeric alpha beta gamma form of Gi resulting in decreased inhibition of basal adenylate cyclase activity.     

Activation of insect cell adenylate cyclase by Bacillus thuringiensis delta-endotoxins and melittin. Toxicity is independent of cyclic AMP.

Insecticidal Bacillus thuringiensis (Bt) delta-endotoxins are cytolytic to a range of insect cell lines in vitro. Addition of Bt var. aizawai or var. israelensis toxins to Mamestra brassicae (cabbage moth) cells in vitro increased intracellular cyclic AMP, which was paralleled by activation of adenylate cyclase in isolated membranes. Var. kurstaki toxin, which does not lyse M. brassicae cells, had no effect on cyclic AMP concentrations in intact cells, but was able to stimulate adenylate cyclase in membrane preparations. In contrast, the bee-venom toxin melittin, which is also cytolytic, increased intracellular cyclic AMP in whole cells, but inhibited adenylate cyclase in isolated membranes. Octopamine and forskolin also increased cyclic AMP in cells, but were not cytolytic. When added to cells at concentrations exceeding their LC90 (concentration causing 90% cell death), melittin and var. israelensis toxins caused cell lysis without a concomitant increase in intracellular cyclic AMP. Taken together, these results suggest that activation of adenylate cyclase by cytolytic toxins is a secondary effect (related perhaps to interactions of these toxins with membrane lipids) and is neither necessary nor sufficient for cytolysis.     

Regulation of adenylate cyclase in two rat liver cell lines, 3C4 and 62.

Adenylate cyclase (EC 4.6.1.1) activities were examined in membrane preparations from two rat liver cell lines (62 and 3C4) which were grown in monolayer cultures. The cells were epithelial-like in growth character. Adenylate cyclase from the line 62 was stimulated by epinephrine, Gpp(NH)p, and prostaglandins A1,A2,E1,E2, and F2alpha, but not by glucagon. Arrhenius plots of adenylate cylase activity from line 62 gave straight lines, except when epinephrine was present in the assay; epinephrine-stimulated activity gave a distinct break at 20 degrees C. Adenylate cyclase activity in line 3C4 was stimulated by glucagon ten times greater than by epinephrine. It was responsive to Gpp(NH)p and all the prostaglandins. Arrhenius plots of adenylate cyclase activity of line 3C4 always gave straight line curves. Prostaglandins flattened the straight line curves (allowed temperature independence) of adenylate cyclase activity in membranes from both cell lines.     

Properties of prostaglandin-sensitive adenylate cyclase system of a murine macrophage-like cell line (P388D1)

The properties of basal and prostaglandin (PG)-stimulated adenylate cyclase of membrane preparations of P388D1 cells were investigated. Three partially purified membrane fractions were obtained by sucrose density gradient centrifugation at the final step of purification from crude homogenate. About 96% of the basal and 89% of PGE2-stimulated adenylate cyclase activity in the homogenate were recovered in three membrane fractions. Two lighter membrane fractions (I and II), which were enriched 11-fold and 8.4-fold in adenylate cyclase activity over crude homogenate, were pooled and subjected to various studies. Results suggested that the basal activity of the membrane preparations has, as in many other cell types, a relatively broad pH optimum (pH 7.5 to 8.5), requires Mg2+, which must be present in excess ATP, and is inhibited by Ca2+. Highly reactive sulfhydryl group(s), which may be present in the lipid bilayer, is required for the adenylate cyclase activity. Because both fluoride ions and GTP augment the enzymatic activity, P388D1 cell membrane adenylate cyclase must possess stimulatory guanine nucleotide-binding protein. The membrane preparations respond to exogeneously added PG by 1.5-fold to 3-fold increase in adenosine 3'-5' cyclic monophosphate (cAMP) production. The magnitude of PG-responsiveness was dependent on the types of PG and the order of potency in stimulation was PGE1 greater than PGE2 greater than PGI2. PGA1, B1, B2, F1 alpha, and F2 alpha stimulated adenylate cyclase only at the highest concentration tested.     

Effect of Phospholipases on Chronic Opiate Action in Neuroblastoma × Glioma NG108-15 Hybrid Cells

Chronic treatment of neuroblastoma X glioma NG108-15 hybrid cells with opiate agonist resulted in loss of the acute opiate inhibition of adenylate cyclase activity with a concomitant increase in the enzymatic activity observable on addition of the antagonist naloxone. The role of membrane lipids in the cellular expression of these chronic opiate effects was investigated by the hydrolysis of phospholipids with various lipases. Treatment with phospholipase C from Clostridium welchii produced an enzyme concentration-dependent decrease of prostaglandin E1-stimulated adenylate cyclase activity in control or etorphine-treated (1 microM for 4 h) hybrid cells. In addition, incubation of hybrid cells with phospholipase C concentrations of greater than or equal to 0.5 U/ml completely abolished the compensatory increase in adenylate cyclase activity after chronic opiate treatment. This attenuation of the increase in adenylate cyclase activity by phospholipase C could be prevented by inclusion of phosphatidylcholine but not of phosphatidic acid during the enzymatic incubations. The specificity of the phospholipids involved in expression of the chronic opiate effect could be demonstrated further by the absence of effect exhibited by phospholipase C from Bacillus cereus and phospholipase D. Hydrolysis of the acyl side chains of phospholipids with phospholipase A2 did not alter the chronic opiate effect after removal of lysophosphatides with bovine serum albumin. Because the guanylylimidodiphosphate- and NaF-sensitive adenylate cyclase activities were not affected by these phospholipase treatments, the expression of the compensatory increase in adenylate cyclase activity is mediated via an increase in the coupling between hormonal receptor and adenylate cyclase with the participation of the polar head groups of the phospholipids and not the hydrophobic side chains.     

Adenylate cyclase of human articular chondrocytes. Responsiveness to prostaglandins and other hormones.

Adenylate cyclase [ATP pyrophosphate lyase (cyclizing), EC 4.6.1.1] was shown to be present in cultured human articular chondrocytes. Optimal conditions of incubation time, protein and substrate concentrations and pH were determined in whole cell lysates. Maximal activity occurred at pH 8.5 with no decrease in activity up to pH 10.0. Adenylate cyclase activity of particulate membrane preparations was enhanced by the addition of crude cytosol preparations. The prostaglandins E1, E2, F1 alpha, F2 alpha, D2, B1, B2, A1 and A2, as well as adrenaline and isoprenaline, stimulated adenylate cyclase derived from either adult or foetal chondrocytes. No significant stimulation was observed in the presence of human calcitonin or glucagon. Bovine parathyroid hormone always significantly stimulated the adenylate cyclase derived from foetal chondrocytes, but not from adult chondrocytes. Preincubation of the chondrocytes in culture with indomethacin and with or without supernatant medium from cultured mononuclear cells increased the responsiveness of the adenylate cyclase to prostaglandin E1.     

Attenuation of Enkephalin Activity in Neuroblastoma × Glioma NG108—15 Hybrid Cells by Phospholipases

The role of membrane phospholipids in enkephalin receptor-mediated inhibition of adenylate cyclase (EC 4.6.1.1) activity in neuroblastoma X glioma NG108-15 hybrids was studied by selective hydrolysis of lipids with phospholipases. When NG108-15 cells were treated with phospholipase C from Clostridium welchii at 37 degrees C, an enzyme concentration--dependent decrease in adenylate cyclase activity was observed. The basal and prostaglandin E1 (PGE1)-stimulated adenylate cyclase activities were more sensitive to phospholipase C (EC 3.1.4.3) treatment than were the NaF-5'-guanylylimidodiphosphate (Gpp(NH)p)-sensitive adenylate cyclase activities. Further, Leu5-enkephalin inhibition of basal or PGE1-stimulated adenylate cyclase activity was attenuated by phospholipase C treatment, characterized by a decrease of enkephalin potency and of maximal inhibitory level. [3H]D-Ala2-Met5-enkephalinamide binding revealed a decrease in receptor affinity with no measurable reduction in number of binding sites after phospholipase C treatment. Although opiate receptor was still under the regulation of guanine nucleotide after phospholipase C treatment, adenylate cyclase activity was more sensitive to the stimulation of Gpp(NH)p. Thus, the reduction of opiate agonist affinity was not due to the uncoupling of opiate receptor from N-component. Further, treatment of NG108-15 hybrid cell membrane with phospholipase C at 24 degrees C produced analogous attenuation of enkephalin potency and efficacy without alteration in receptor binding. The reduction in enkephalin potency could be reversed by treating NG108-15 membrane with phosphatidylcholine, but not with phosphatidylserine, phosphatidylinositol, or cerebroside sulfate. The enkephalin activity in NG108-15 cells was not altered by treating the cells with phospholipase A2 o phospholipase C from Bacillus cereus. Hence, apparently, there was a specific lipid dependency in enkephalin inhibition of adenylate cyclase activity.     

Generation of cytolytic T lymphocytes in vitro. VIII. failure of anti-RS antisera to inhibit the generation of cytolytic T lymphocytes or cytolytic T lymphocyte activity.

Antibody reactive with "recognition structures" (RS) of mouse lymphoid cells for alloantigens (anti-RS) was prepared by immunization of F1 hybrid mice with parentalstrain lymphoid cells or with antibody produced in one parental strain against alloantigens of the other parental strain. Such antisera prevented generation of the "product of antigenic recognition" (PAR) that is produced within a few hours in cultures prepared with a mixture of lymphoid cells from genetically disparate mice. However, treatment of responding lymphoid cells with anti-RS sera and complement did not inhibit generation of cytolytic T lymphocytes (CTL) in mixed lymphocyte cultures (MLC). Treatment of cells obtained from MLC with anti-RS sera and complement failed to inhibit cytolytic activity of such cells for specific alloantigens.     

Activation of adenylate cyclase in cultured fibroblasts by trypsin

Adenylate cyclase activity measured in membranes of cultured normal rat kidney (NRK) fibroblasts was markedly increased by prior treatment of the intact cells with trypsin. Cell population density influenced the extent of activation observed. Trypsin treatment of sparse cells significantly enhanced adenylate cyclase activity, whereas similar treatment of confluent cells caused only a slight increase in adenylate cyclase activity. The degree of activation noted after trypsin treatment also varied depending on the adenylate cyclase function measured. Activity determined in the presence of GTP alone showed the greatest increase after trypsin treatment. Similar enhancement of adenylate cyclase activity of a washed cell membrane preparation was achieved by the addition of low concentrations of trypsin directly to the adenylate cyclase reaction mixture. The membranes of confluent NRK fibroblasts initially exhibited higher adenylate cyclase activity than did membranes of sparse cells. The present results suggest that this change in adenylate cyclase activity at cell confluence is not due to an increase in the amount of adenylate cyclase in the cell membrane but rather to a change in membrane components that regulate its activity. Proteolytic activation of adenylate cyclase appears to result from degradation of cell membrane proteins that modulate the activity of this enzyme.     

Stimulation of adenylate cyclase activity in lymph nodes of rats with graft-versus-host disease

Adenylate cyclase activity in the lymph node particles from rats undergoing graft-versus-host reaction was found to increase markedly. Such a change in the enzyme activity does not appear to be due to a shift in pH optima. Sodium fluoride failed to stimulate the adenylate cyclase activity in preparations from animals with graft-versus-host disease. These results suggest that the cellular immune process is associated with alteration in the adenylate cyclase activity.