Interaction between prostaglandins and calcium: The importance of bell-shaped dose-response curves

Biological response to PGs show two basic forms of dose/response relationship, plateau and bell-types. although bell-shaped dose/response curves are well documented their possible occurrence is almost always ignored on the design and interpretation of experiments on PGs and related substances. This may lead to serious errors, several types of which are described. The ignoring of a well-documented phenomenon may take place because there is no accepted hypothesis which attempts to explain the bell-type curves. A hypothesis is proposed which accounts for both plateau and bell type responses. It is developed primarily with respect to PG-calcium interactions but may be applicable to some PG-cyclic nucleotide interactions as well. The model leads to precise predictions which can be experimentally tested in many systems.     

Prostaglandins Stimulate Serotonin Acetylation in Chick Pineal Cells: Involvement of Cyclic AMP-Dependent and Calcium/Calmodulin-Dependent Mechanisms

Abstract: The effects of prostaglandins (PGs) on the activity of the rate-limiting enzyme of melatonin biosynthesis, aryl-alkylamine- N -acetyltransferase (NAT) were investigated on primary cultures of dispersed chick pineal cells. In indomethacin-treated cells, PGs caused a four-fold increase in NAT activity. This response was associated with an eightfold increase in cyclic AMP (cAMP) levels. The potency order of PGs was the same for NAT and for cAMP responses (PGE¹ > PGE² > PGF^2α≫ cloprostenol). However, each PG tested was 30- to 200-fold more potent to increase NAT activity than to stimulate cAMP accumulation. As a result, half-maximal stimulation of NAT by PGs was not associated with an increase in cAMP levels. Half-maximal stimulation of NAT by PGE¹ was highly sensitive to inhibition by a calcium/calmodulin antagonist (W-7). In contrast, maximal stimulation of NAT by PGE¹ as well as stimulations evoked by either forskolin or 8-bromo-cAMP were poorly sensitive to inhibition by W-7. These results indicate that an increase in cAMP levels may be responsible for the maximal stimulation of NAT evoked by PGs, whereas half-maximal stimulation of NAT by PGs would rely principally on a calcium/calmodulin-dependent mechanism.     

Modulation of the mitogenic response of lymphocytes from young and aged individuals by prostaglandins and indomethacin

The effect of indomethacin (IND) on the mitogenic responses of human peripheral blood lymphocytes was dependent upon the dose of mitogen employed; in contrast, the effect of prostaglandins (PGs) was independent of the mitogen dose. When a single concentration of mitogen was used to study the effect of IND on blastogenesis, extremely variable results were observed, even among a healthy population group. This variability within the group was reduced to a minimum when mitogen dose-response studies were performed with and without IND and maximal blastogenic responses were compared. Employing such acriterion, no age-related differences were noted on addition of IND. Kinetic experiments revealed that significant quantities of PGs must be present very early during the culture period to influence the lectin-induced mitogenesis. These findings, together with recently published data from other laboratories, lead us to conclude that endogenously synthesized PGs may not be able to influence the lectin-induced mitogenic process. The effect of IND observed at submitogenic doses of lectins may be due to other pharmacological actions such as its effect on cyclic AMP-dependent protein kinases.     

Locoweed dose responses to nitrogen: Positive for biomass and primary physiology, but inconsistent for an alkaloid

? Premise of the Study: Plant communities may be influenced by toxic secondary metabolites or enhanced plant growth from plant-symbiont interactions. The C:N hypothesis predicts that carbon or nitrogen constrains plant secondary metabolite production, but it does not consider compounds produced by plant symbionts. Locoweeds are legumes that can have fungal endophyte alkaloid (swainsonine [SWA]) production, which causes livestock poisoning. We studied four locoweed taxa to test whether average SWA concentrations influenced SWA positive dose responses to N fertilizer. ? Methods: We measured locoweed leaf SWA, pigment concentrations and photosynthetic activity, and plant biomass dose responses to N supplementation for 3 mo in two greenhouse experiments. ? Key Results: Leaf photosynthesis, leaf pigment concentrations, and plant biomass had positive, unsaturated dose responses across tested N doses. Although N enhanced primary growth, two moderate-SWA taxa (Astragalus mollissimus var. bigelovii and Oxytropis sericea) had negative SWA dose responses to increasing N, the high-SWA taxon (A. moll. var. mollissimus) had no SWA change, and the very low-SWA taxon (A. moll. var. matthewsii) had a transient positive dose response. ? Conclusions: Supplemented N led to positive dose responses for plant biomass and leaf photosynthesis and pigments, but SWA dose responses differed across locoweed taxa and time. At N levels that enhanced plant growth and reduced antioxidant protective systems, fungal endophyte alkaloid production was not strongly influenced. Production of SWA may be more strongly influenced by factors other than C:N supply (e.g., seasonality, plant age) in the locoweed-endophyte-Rhizobium complex.     

Combined NO and PG inhibition augments alpha-adrenergic vasoconstriction in contracting human skeletal muscle

Sympathetic alpha-adrenergic vasoconstrictor responses are blunted in the vascular beds of contracting muscle (functional sympatholysis). We tested the hypothesis that combined inhibition of nitric oxide (NO) and prostaglandins (PGs) restores sympathetic vasoconstriction in contracting human muscle. We measured forearm blood flow via Doppler ultrasound and calculated the reduction in forearm vascular conductance in response to alpha-adrenergic receptor stimulation during rhythmic handgrip exercise (6.4 kg) and during a control nonexercise vasodilator condition (using intra-arterial adenosine) before and after combined local inhibition of NO synthase (NOS; via N(G)-nitro-L-arginine methyl ester) and cyclooxygenase (via ketorolac) in healthy men. Before combined inhibition of NO and PGs, the forearm vasoconstrictor responses to intra-arterial tyramine (which evoked endogenous noradrenaline release), phenylephrine (a selective alpha1-agonist), and clonidine (an alpha2-agonist) were significantly blunted during exercise compared with adenosine treatment. After combined inhibition of NO and PGs, the vasoconstrictor responses to all alpha-adrenergic receptor stimuli were augmented by approximately 10% in contracting muscle (P <0.05), whereas the responses to phenylephrine and clonidine were also augmented by approximately 10% during passive vasodilation in resting muscle (P <0.05). In six additional subjects, PG inhibition alone did not alter the vasoconstrictor responses in resting or contracting muscles. Thus in light of our previous findings, it appears that inhibition of either NO or PGs alone does not affect functional sympatholysis in healthy humans. However, the results from the present study indicate that combined inhibition of NO and PGs augments alpha-adrenergic vasoconstriction in contracting muscle but does not completely restore the vasoconstrictor responses compared with those observed during passive vasodilation in resting muscle.     

Ecological specialization and susceptibility to disturbance: conjectures and refutations

Niche breadth of species has been hypothesized to be associated with species' responses to disturbance. Disturbance is usually believed to affect specialists negatively, while generalists are believed to benefit from disturbance; we call this the "specialization-disturbance" hypothesis. We also propose an associated hypothesis (the "specialization-asymmetry-disturbance" hypothesis) under which both specialization and asymmetry of interactions would explain species' responses to disturbance. We test these hypotheses using data from a plant-pollinator system that has been grazed by cattle (i.e., a biological disturbance) in southern Argentina. We quantified specialization in species interactions, specialization of interaction partners, and species' responses to disturbance. We found no relationship between degree of specialization and a species' response to disturbance. We also found that plant-pollinator interactions tend to be asymmetric in this system; there was no relationship between the degree of specialization of a given species and the degree of specialization of its interaction partners. However, asymmetry of interactions did not explain the variability in species' responses to disturbance. Thus, both hypotheses are rejected by our data. Possible reasons include failure to assess crucial resources, substantial direct effects of disturbance, inaccurate measures of specialization, difficulty detecting highly nonlinear relationships, and limitations of a nonexperimental approach. Or, in fact, there may be no relationship between specialization and response to disturbance.     

Prostaglandins in enhanced pressor response in renal prehypertensive rabbits

The role of prostaglandins (PGs) in the pressor response to norepinephrine (NE) was examined in one-kidney, one clip rabbits with renal artery stenosis for 3-day's duration (3-day clipped rabbits) and in sham operated rabbits with one-kidney without renal artery stenosis. An exaggerated pressor response to NE, 800 ng/kg/min, was observed in the 3-day clipped rabbits, and it was abolished by angiotensin II antagonist, [Sar1, Ile8] angiotensin II (AIIA). Treatment with indomethacin, 10 mg/kg, induced hyperresponsiveness to NE in the sham operated rabbits and also produced a further increase in the response in the 3-day clipped rabbits: the enhanced responses with similar levels were not attenuated by AIIA in both groups. A subdepressor dose of PGE2, 800 ng/kg/min, abolished the hyperresponsiveness in the 3-day clipped rabbits, while subdepressor or depressor dose of PGI2, 10 or 20 ng/kg/min did not, but the concurrent infusion of AIIA with PGI2 attenuated it. These results indicate that PGs, in particular PGE2 might be involved in the enhanced pressor response to NE in the 3-day clipped rabbits in addition to the altered renin-angiotensin system.     

The influence of prostaglandins on neurotransmission in the rabbit isolated vas deferens

Arachidonic acid and PGs of the D, E, F and I series were examined for influences on neurogenic contractions of the rabbit isolated vas deferens. This preparation exhibits two pharmacologically distinct contractions in response to electrical stimulation. All of the PGs tested inhibited the neurogenic contractions but the pattern of inhibition differed. PGE1 and PGI2 inhibited the adrenergic contractile phase more potently than the nonadrenergic, and PGF2 alpha exhibited the opposite selectivity. Arachidonic acid, PGE2 and PGD2 produced equipotent effects on both contractile phases, although PGE2 was the most potent in producing these effects. None of the PGs altered the concentration-response curve to norepinephrine. Contractile responses to ATP, a putative neurotransmitter, were inhibited by PGF2 alpha but not by the other PGs. These results suggest that the PG effects are predominantly prejunctional. The differing potencies of the PGs on the two neural components are consistent with the hypothesis that neurotransmitters in the vas deferens are released by distinct types of nerves.     

BMA‐Mod: A Bayesian model averaging strategy for determining dose‐response relationships in the presence of model uncertainty

Successful pharmaceutical drug development requires finding correct doses. The issues that conventional dose‐response analyses consider, namely whether responses are related to doses, which doses have responses differing from a control dose response, the functional form of a dose‐response relationship, and the dose(s) to carry forward, do not need to be addressed simultaneously. Determining if a dose‐response relationship exists, regardless of its functional form, and then identifying a range of doses to study further may be a more efficient strategy. This article describes a novel estimation‐focused Bayesian approach (BMA‐Mod) for carrying out the analyses when the actual dose‐response function is unknown. Realizations from Bayesian analyses of linear, generalized linear, and nonlinear regression models that may include random effects and covariates other than dose are optimally combined to produce distributions of important secondary quantities, including test‐control differences, predictive distributions of possible outcomes from future trials, and ranges of doses corresponding to target outcomes. The objective is similar to the objective of the hypothesis‐testing based MCP‐Mod approach, but provides more model and distributional flexibility and does not require testing hypotheses or adjusting for multiple comparisons. A number of examples illustrate the application of the method.     

Pancreatic secretion in rats treated with intra-aortic prostaglandin E1

The effects from one dose of PGE1 on the endocrine pancreatic secretions have been studied in rat. The dose is injected i.a. very near the pancreas in the abdominal aorta at the level of the caeliac artery. Glycemia, insulinemia and glucagonemia are studied after i.v. glucose injection in: a) normal rats; b) rats free from their endogenous rate of PGs by previous treatment with indomethacin i.p. and c) with an excessive rate of PGE1. The treatment with PGE1 produces an inhibitory effect on the insulinic response to glucose, as well as hyperglycemia and hyperglucagonemia. In the cases without the endogenous rat of PGs the insulinic secretion as a response to glucose is greatly improved.     

Study of the interaction between plasma proteoglycans and LDL by means of fluorescence spectroscopy]

The relevance of the interaction between LDL and PGs in the development of atherosclerotic processes is well known. However, the exact nature of the interaction and the consequent structural and/or conformational modifications of the lipoprotein remain to be clarified. It has been demonstrated that after this interaction the LDL particle is not recognized by specific cellular receptors and enters the scavenger pathway operating in different cell types. These effects have been shown by using aortic PGs, but PGs are also present in the plasma compartment and may interact constantly with LDL, taking part in the regulation of lipid metabolism. In order to assess the capability of plasma PGs to induce LDL modifications, we investigated their interactions by studying the changes in the organizational parameters of LDL by fluorescence spectroscopy. Plasma PGs were isolated by DEAE Sephacel ion exchange chromatography and Sephacryl S300 gel filtration in two different families: a low-charge PG and a high-charge PG. Human LDL was prepared from plasma of normolipemic donors by ultracentrifugal flotation between 1.025-1.045 g/ml. Steady-state anisotropy measures were obtained by analyzing the rotational diffusion rate of DPH after incubation of LDL with plasma PGs in a physiological ratio. In our experimental conditions, LDL incubation with plasma low-charge PG did not modify DPH fluorescence anisotropy, whereas LDL treatment with highly charged PGs induced a marked decrease of this parameter, suggesting a significant effect on LDL microviscosity. The data show that both the charge and the GAG composition of PGs appear to be critical factors in LDL-PG interaction.(ABSTRACT TRUNCATED AT 250 WORDS)     

Proteoglycan control of cell movement during wound healing and cancer spreading.

By virtue of their multifunctional nature, proteoglycans (PGs) are thought to govern the process of cell movement in numerous physiological and pathological contexts, spanning from early embryonic development to tumour invasion and metastasis. The precise mode by which they influence this process is still fragmentary, but evidence is accruing that they may affect it in a multifaceted manner. PGs bound to the plasma membrane mediate the polyvalent interaction of the cell with matrix constituents and with molecules of the neighbouring cells' surfaces; they modulate the activity of receptors implicated in the recognition of these components; and they participate in the perception and convergence of growth- and motility-promoting cues contributed by soluble factors. Through some of these interactions several PGs transduce to pro-motile cells crucial intracellular signals that are likely to be essential for their mobility. A regulated shedding of certain membrane-intercalated PGs seems to provide an additional level of control of cell movement. Coincidentally, matrix-associated PGs may govern cell migration by structuring permissive and non-permissive migratory paths and, when directly secreted by the moving cells, may alternatively create favourable or hostile microenvironments. To exert this latter, indirect effect on cell movement, matrix PGs strongly rely upon their primary molecular partners, such as hyaluronan, link proteins, tenascins, collagens and low-affinity cell surface receptors, whereas a further finer control is provided by a highly regulated proteolytic processing of the PGs accounted by both the migrating cells themselves and cells of their surrounding tissues. Overall, PGs seem to play an important role in determining the migratory phenotype of a cell by initiating, directing and terminating cell movement in a spatio-temporally controlled fashion. This implies that the "anti-adhesive and/or "anti-migratory" properties that have previously been assigned to certain PGs may be re-interpreted as being a means by which these macromolecules elaborate haptotaxis-like mechanisms imposing directionality upon the moving cells. Since these conditions would allow cells to be led to given tissue locations and become immobilized at these sites, a primary function may be ascribed to PGs in the dictation of a "stop or go" choice of the migrating cells.     

Cell-mediated Control of an Antibody Response

THERE is an increasing recognition of the cellular interactions which may influence immune responses. Here we report the in vitro demonstration of one such type of phenomenon, which seems to be a cell-mediated effect, displaying both high potency and unusual dose response characteristics in terms of its capacity to inhibit an antibody response.     

The mobile receptor hypothesis and “cooperativity” of hormone binding. Application to insulin

The mobile receptor hypothesis has been proposed to describe the process by which hormone receptor binding initiates a biological response; it states that receptors, which can diffuse independently in the plane of the membrane, reversibly associate with effectors to regulate their activity. The affinity for effector is greater when the receptor is occupied by hormone.A mathematical expression of the mobile receptor hypothesis is used to show that: (1) The predicted kinetics of hormone receptor binding may be indistinguishable from “negative cooperativity”. (2) Receptor occupancy and biological response may be coupled in a non-linear fashion.By choosing specific parameters, most of the existing data on insulin binding and biological responses can be explained in terms of the mobile receptor hypothesis. Thus, the following are easily explained: (1) A single homogeneous receptor may appear kinetically to be composed of two classes (of high and low affinity) of receptors. (2) Occupancy of the apparent class of high affinity receptors is related linearly to the biological response. (3) The same receptor in different tissues may appear to have different affinity. (4) The binding of different biologically active insulin analogues may exhibit different degrees of “cooperatively.” These considerations may also be pertinent to intepretations of other hormone-receptor systems and of various ligand-macromolecule interactions.     

The mobile receptor hypothesis and "cooperativity" of hormone binding. Application to insulin.

The mobile receptor hypothesis has been proposed to describe the process by which hormone receptor binding initiates a biological response; it states that receptors, which can diffuse independently in the plane of the membrane, reversibly associate with effectors to regulate their activity. The affinity for effector is greater when the receptor is occupied by hormone. A mathematical expression of the mobile receptor hypothesis is used to show that: (1) The predicted kinetics of hormone receptor binding may be indistinguishable from "negative cooperativity." (2) Receptor occupancy and biological response may be coupled in a non-linear fashion. By choosing specific parameters, most of the existing data on insulin binding and biological responses can be explained in terms of the mobile receptor hypothesis. Thus, the following are easily explained: (1) A single homogeneous receptor may appear kinetically to be composed of two classes (of high and low affinity) of receptors. (2) Occupancy of the apparent class of high affinity receptors is related linearly to the biological response. (3) The same receptor in different tissues may appear to have different affinity. (4) The binding of different biologically active insulin analogues may exhibit different degrees of "cooperativity." These considerations may also be pertinent to interpretations of other hormone-receptor systems and of various ligand-macromolecule interactions.     

Effects of acetylsalicylic acid treatment on thyroid hormones,prolactins, and the stress response of tilapia (Oreochromis mossambicus)

The cyclooxygenase (COX) pathway converts arachidonic acid (ArA) into prostaglandins (PGs), which interact with the stress response in mammals and possibly in fish as well. Acetylsalicylic acid (ASA) is a COX inhibitor and was used to characterize the effects of PGs on the release of several hormones and the stress response of tilapia (Oreochromis mossambicus). Plasma PGE2 was significantly reduced at 100 mg ASA/kg body wt, and both basal PGE2 and cortisol levels correlated negatively with plasma salicylate. Basal plasma 3,5,3'-triiodothyronine (T3) was reduced by ASA treatment, whereas prolactin (PRL)188 increased at 100 mg ASA/kg body wt. ASA depressed the cortisol response to the mild stress of 5 min of net confinement. As expected, glucose and lactate were elevated in the stressed control fish, but the responses were blunted by ASA treatment. Gill Na+-K+-ATPase activity was not affected by ASA. Plasma osmolarity increased after confinement in all treatments, whereas sodium only increased at the high ASA dose. This is the first time ASA has been administered to fish in vivo, and the altered hormone release and the inhibition of the acute stress response indicated the involvement of PGs in these processes.     

Extremely low priming doses of X radiation induce an adaptive response for chromosomal inversions in pKZ1 mouse prostate

An adaptive response is a response to a stress such as radiation exposure that results in a lower than expected biological response. We describe an adaptive response to X radiation in mouse prostate using the pKZ1 chromosomal inversion assay. pKZ1 mice were treated with a priming dose of 0.001, 0.01, 1 or 10 mGy followed 4 h later by a 1000-mGy challenge dose. All priming doses caused a similar reduction in inversions compared to the 1000-mGy group, supporting the hypothesis that the adaptive response is the result of an on/off mechanism. The adaptive response was induced by a priming dose of 0.001 mGy, which is three orders of magnitude lower than has been reported previously. The adaptive responses completely protected against the inversions that would have been induced by a single 1000-mGy dose as well as against a proportion of spontaneous background inversions. The distribution of inversions across prostate gland cross sections after priming plus challenge irradiation suggested that adaptive responses were predominantly due to reduced low-dose radiation-induced inversions rather than to reduced high-dose radiation-induced inversions. This study used radiation doses relevant to human exposure.     

Toxicology of the prostaglandins

Available published material of adverse reactions to prostaglandins (PGs) at various dosages routes and levels is reviewed. Animal studies are of 2 kinds: studies of pharmacological effects and studies of toxicological reactions (i.e., acute dose levels). The pharmacology of PGs show the drugs have 3 areas of action: 1) smooth muscle effects, either contraction or relaxation (cardiovascular effects and reproductive tract; relaxation of vascular smooth muscles by some PGs and contraction by others); 2) nervous system effects; and 3) lipid and carbohydrate metabolism. In humans, PGE1 was administered intravenously and it was found that adverse effects were related to rate of administration rather than to total dose; side effects included flushing, headache, visual disturbances, and restlessness, factors which might suggest a correlation with central nervous system effects (as found in animal studies). PGE1 administered at acute doses orally, by inhalation, and intradermally show effects attributable to gastrointestinal disturbances, respiratory problems, and erythematous responses. In general, studies in humans of other PGs have found similar adverse reactions, all of which are explained by known mechanisms of action of PGs. Dose levels constituting acutity are dependent on route (i.e., oral doses are much higher than intravenous doses), with rapid intravenous infusion causing the most adverse reactions.     

Simulation of neutron interactions at the single-cell level

We recently reported that the exposure of cancer cells to 14 MeV neutrons at a very low dose rate (0.8 mGy min(-1)) produced a marked increase in cell killing at 5 cGy, followed by a plateau in survival and chromosomal damage. Simulation of the energy deposition events in irradiated cells may help to explain these unusual cell responses. We describe here a Monte Carlo simulation code, Energy Deposition in Cells Irradiated by Neutrons (EDCIN). The procedure considered the experimental setup and a hemispheric cell model. The simulation data fitted the dosimetric measurements performed using tissue-equivalent ionization chambers, Geiger-Müller counters, fission chambers, and silicon diodes. The simulation showed that 80% of the energy deposited in a single cell came from the interactions of neutrons outside the cell and only 20% came from neutron interactions inside the cell. Thus the "external" interactions that result in the production of recoil protons and secondary electrons may induce most of the biological damage, which may be repaired efficiently at low dose rate. The repair process may be triggered from a threshold level of damage, which would explain an initial increase cell death due to unrepaired sublethal damage, and then may compensate for induced damage, resulting in the plateaus.     

Development of excitability in embryonic chick skeletal muscle cells

During embryonic and early postnatal development, the chick leg muscle cells undergo a series of changes in their electrical responses in the following sequence: passive response, plateau response, plateau plus spike response and spike response. This suggests that the electrogenetic mechanism of muscles matures during development; a mechanism producing the plateau may first be induced, and then that producing the spike. The plateau is sensitive to manganese or cobalt ions, while the spike to tetrodotoxin. This suggests that the plateau is related to the increase in permeability to calcium ions, while the spike to sodium ions.