Effect of colchicine on the osmotic water flow across the toad urinary bladder

Osmotic water movement across the toad urinary bladder in response to both vasopressin and cyclic AMP was inhibited by 10^?5 to 10^?4 M colchicine on the serosal but not on the mucosal side. This inhibitory effect was found to be time- and dose-dependent. Colchicine alone did not change basal osmotic flow and a baseline of the short-circuit current (I_sc) and also did not affect a vasopressin-induced rise of the I_sc. The inhibitory effect was not prevented by the addition of pyruvate. The osmotic water movement produced by 360 mM Urea (mucosal), 360 mM mannitol (serosal) or 2 μg/ml amphotericin B (mucosal), was not affected by 10^?4 M colchicine. These results suggest that colchicine inhibits some biological process subsequent to the formation of cyclic AMP except a directional cytoplasmic streaming process where microtubules may be involved.     

Evidence for involvement of microtubules in the action of vasopressin in toad urinary bladder

Summary The antimitotic agents colchicine, podophyllotoxin, and vinblastine inhibit the action of vasopressin and cyclic AMP on osmotic water movement in the toad urinary bladder. The alkaloids have no effect on either basal or vasopressin-stimulated sodium transport or urea flux across the tissue. Inhibition of vasopressin-induced water movement is half-maximal at the following alkaloid concentrations: colchicine, 1.8×10^–6 m; podophyllotoxin, 5×10^–7 m; and vinblastine, 1×10^–7 m. The characteristics of the specificity, time-dependence and temperature-dependence of the inhibitory effect of colchicine are similar to the characteristics of the interaction of this drug with tubulinin vitro, and they differ from those of its effect on nucleoside transport. Inhibition of the vasopressin response by colchicine, podophyllotoxin, and vinblastine is not readily reversed. The findings support the view that the inhibition of vasopressin-induced water movement by the antimitotic agents is due to the interaction of these agents with tubulin and consequent interference with microtubule integrity and function. Taken together with the results of biochemical and morphological studies, the findings provide evidence that cytoplasmic microtubules play a critical role in the action of vasopressin on transcellular water movement in the toad bladder.     

Effect of colchicine on the osmotic water flow across the toad urinary bladder.

Osmotic water movement across the toad urinary bladder in response to both vasopressin and cyclic AMP was inhibited by 10(-5) to 10(-4) M colchicine on the serosal but not on the mucosal side. This inhibitory effect was found to be time- and dose-dependent. Colchicine alone did not change basal osmotic flow and a baseline of the short-circuit current (Isc) and also did not affect a vasopressin-induced rise of the Isc. The inhibitory effect was not prevented by the addition of pyruvate. The osmotic water movement produced by 360 mM Urea (mucosal), 360 mM mannitol (serosal) or 2 mug/ml amphotericin B (mucosal), was not affected by 10(-4) M colchicine. These results suggest that colchicine inhibits some biological process subsequent to the formation of cyclic AMP except a directional cytoplasmic streaming process where microtubules may be involved.     

Adriamycin inactivates cytochrome c oxidase by exclusion of the enzyme from its cardiolipin essential environment

The regulation of ligand binding to the muscarinic acetylcholine receptor in developing chick heart has been studied using the radiolabeled antagonist [³H]quinuclidinyl benzilate (QNB). In assays containing only buffer and a source of receptor protein, the antagonist radioligand bound to a single, high affinity state of the receptor. If Mg²⁺ and EDTA were added, [³H]QNB bound to a single, low affinity state. The guanine nucleotide analog, guanylylimidodiphosphate [Gpp(NH)p], reversed the effect of $\text{Mg}{}^{\mathrm{2+}}\text{EDTA}$ so that [³H]QNB again bound only to a single, high affinity state. Sodium could also reverse the effect of $\text{Mg}{}^{\mathrm{2+}}\text{EDTA}$ on antagonist binding but the effects of sodium and Gpp(NH)p on [³H]QNB binding were not additive.     

Adentylate cyclase activity in myocardium of spontaneously hypertensive rat: effect of endogenous factors and solubilization

The isoproterenol- and glucagon-stimulated adenylate cyclase activities in the myocardial membranes of hypertensive rat were consistantly lower as compared with normal controls. Addition of cytosolic fraction (100,000 x$\text{g}$ supernatant) to the particulate preparation had an additive effect for glucagon and Gpp(NH)p stimulated enzyme activity and a synergistic effect for isoproterenol stimulation. Cytosolic fraction of normal control animals did not bring the adenylate cyclase activity in SHR equivalent to the control values. The basal and F^?-stimulated enzyme activity of solubilized adenylate cyclase was reduced by about 30% in SHR as compared with WKY, which could be due to a decrease in the actual amount of adenylate cyclase in the myocardium of SHR.     

EFFECTS OF CYTOCHALASIN B ON THE RESPONSE OF TOAD URINARY BLADDER TO VASOPRESSIN

A combined physiological and morphological study of the effects of cytochalasin B (CB) on the toad urinary bladder has been carried out. CB inhibits the hydro-osmotic response to vasopressin without altering basal water permeability or diffusion, or the increase in ³H₂O diffusion observed after hormone addition. Although CB increases [²²Na]-, [³⁶Cl]-, and [¹⁴C]urea fluxes, and decreases transepithelial potential, no alteration in basal short-circuit current, the vasopressin-induced increase in this parameter, or [¹⁴C]inulin permeability occurs. In the absence of hormone, CB does not markedly alter the structure of the toad bladder. However, in the presence of vasopressin, CB induces the formation of large intracellular vacuoles. These results suggest a possible coupling of solute and water movement across the tissue.     

A novel response to propranolol: Contractile response in the isolated rabbit ear artery

Propranolol caused a contractile response in the isolated rabbit ear artery (EA). The concentration of propranolol causing a threshold contraction was 1.76 × 10^?6M while that causing a maximal contraction of 2.2 ± 0.18 g was 3 × 10^?5M. Higher concentrations caused tissue relaxation. Phentolamine, 10^?7 and 10^?6M reduced the propranolol-induced contractions by 50% and 90%, respectively while prazosin, 10^?8, 10^?7 and 10^?6M caused reductions of 54, 74 and 88%, respectively. Reserpinization of the rabbit with 5 mg/kg 24 hours before use eliminated the EA contractile response to tyramine but had no effect on that to propranolol. Desmethylimipramine plus deoxycorticosterone acetate enhanced the submaximal contraction of the EA to propranolol. $\text{In vitro}$ denervation with 6-hydroxydopamine (6-OHDA) decreased the response of the EA to tyramine and propranolol by 96% and 85% respectively but increased that to norepinephrine (NE) by 11%. Rabbit thoracic aorta (TA) did not respond to propranolol. In EA contracted with vasopressin o or 30 mM potassium, propranolol 10^?4 and 3 × 10^?4M caused a 20% and 100% relaxation, respectively. It is concluded that propranolol elicits a contractile response in the EA, at least in part, by direct activation of postsynaptic alpha adrenoceptors.     

Multiphasic activation of smooth muscle adenylate cyclase by pretreatment with guanyl-5′-yl imidodiphosphate (Gpp(NH)p) suggests multiple enzyme populations

The activation of uterine smooth muscle adenylate cyclase was studied by pretreating the particulate form of the enzyme with the GTP analog guanyl-5′-yl imidodiphosphate (Gpp(NH)p). Pretreatment with Gpp(NH)p left the enzyme in an irreversibly activated state which survived subsequent washing in guanyl nucleotide-free buffer. Activation under these conditions was multiphasic with rapid and slow components. At 23 °C slow activation proceeded at about $\text{1}\text{10}\text{th}$ the rate of rapid activation. The onset of the slow phase took longer at lower temperatures. Routine adenylate cyclase assay conditions (conversion of [³²P]ATP to cyclic [³²P]AMP) carried out without pretreatment probably characterized the rapidly activated component. The simplest kinetic model suggests not only the generally accepted two-step association reaction, but also implies the existence of more than one enzyme form, each of which is characterized by a separate activation rate. The complex kinetics of activation might be explained by a heterogeneous mixture of unassociated and preassociated nucleotide binding and catalytic subunits.     

Dopaminergic inhibition of vasopressin-stimulated water flow in the toad bladder: Evidence for local formation of dopamine

Summary Dopamine administration increases renal excretion of water and Na. It remains uncertain whether these effects of dopamine are the result of a hemodynamic effect or the consequence of a direct cellular action. We investigated the effect of dopamine on water transport by the isolated toad bladderin vitro. Dopamine failed to alter baseline water flow but caused a significant inhibition of arginine vasopressin (AVP) or cyclic adenosine monophosphate (AMP) stimulated water flow. The effect of dopamine on stimulated water flow was not due to activation of adrenergic, adrenergic, or cholinergic receptors. The selective antagonists of dopamine, metoclopramide and apomorphine, prevented the effect of dopamine on AVP-stimulated water flow. These observations suggest the existence of a dopaminergic receptor in the toad bladder.l-Dopa also inhibited AVP-stimulated water flow. The effect ofl-Dopa could be prevented by metoclopramide, thus suggesting thatl-Dopa is converted to dopamine by an aromatic amino acid decarboxylase present in the toad bladder. To investigate this possibility we measured the effect of the decarboxylase inhibitor, carbidopa, on the¹⁴CO₂ production generated by decarboxylation of¹⁴Cl-Dopa in isolated toad bladder epithelial cells. Isolated toad bladder epithelial cells generated significant amounts of¹⁴CO₂ from¹⁴Cl-Dopa. This effect could be blocked by carbidopa, thus suggesting the existence of an aromatic amino acid decarboxylase system in the toad bladder. Carbidopa also prevented the inhibitory effect ofl-Dopa on AVP-stimulated water flow, suggesting thatl-Dopa needs to be converted to dopamine to inhibit water flow. These data suggest the existence of a dopaminergic receptor in the toad bladder. These data also suggest that dopamine can be formed locally in the toad bladder and can thus serve as a local modulator of water transport.     

Greatly extended viability of rat brain storage vesicles in an intracellular medium based upon a non-permeant polyanion

The MgATP-stimulated accumulation of (-)-³H-nor- epinephrine (NE) by rat brain neuronal storage vesicles has been characterized in a new medium based upon polyacrylic acid (avg. MW 5,000). The medium allows careful regulation of K⁺ concentration (140 mM), has a large buffer capacity, and is non-permeant to membranes. Light scattering measurements have confirmed the osmotic stability of vesicles suspended in this medium. Vesicular accumulation of (-)-³ H-NE (Km 1 × 10^?6 M) in this system (37°) was examined under saturating (10^?5 M) and non-saturating (2 × 10^?7 M) concentrations of NE. At 10^?5 M NE, uptake saturated at 5 min and remained stable for periods up to one hour, with maximal uptake levels (pmol/mg protein) of 15.7±0.30 (37°), 3.0±0.49 (0°), 4.4±0.22 (reserpine pretreated $\text{in}$$\text{vivo}$) and 6.0±0.79 (without MgATP). At 2×10^?7 M NE uptake was biphasic with maximal uptake levels (pmol/mg protein) of 4.04±0.14 (37°), 0.19±0.01 (0°), 0.95±0.01 (reserpine) and 0.83±0.08 (without MgATP). Vesicle preparations refrigerated in this medium for 24 hrs displayed properties quite similar to those measured acutely (NE = 2.2x10^?7 M).     

Effect of guanine nucleotides on the assembly of brain microtubles: ability of 5'-guanylyl imidodiphosphate to replace GTB in promoting the polymerization of microtubules in vitro.

Polymerization of microtubule requires the presence of GTP, and the tubulin-bound GTP is hydrolyzed during microtubule formation. However, it was found that an unhydrolyzable analog of GTP, 5′-guanylyl imidodiphosphate (Gpp(NH)p), was able to replace GTP. The hydrolysis of the terminal phosphate group of GTP, therefore, does not seem to be a prerequisite to $\text{in vitro}$ assembly of microtubules. The microtubules formed in the presence of Gpp(NH)p were indistinguishable from those formed in the presence of GTP under electron microscopy, but a remarkable decrease was noted in their sensitivity to depolymerization by calcium ions.     

Amiloride stimulation of sodium transport in the presence of calcium and a divalent cation chelator

Amiloride in nM to μM concentrations stimulates the short circuit current ($\text{I}{}_{\mathrm{<mtext>sc</mtext>}}$) of the toad urinary bladder by as much as 120% when applied in conjunction with apical Ca²⁺ and a divalent cation chelator. A significant decrease in transepithelial resistance ($\text{R}{}_{\mathrm{<mtext>t</mtext>}}$) is observed simultaneously. This response is spontaneously reversible and its amplitude is dependent upon apical sodium concentrations. The stimulated $\text{I}{}_{\mathrm{<mtext>sc</mtext>}}$ persisted when acetazolamide (1 mM) was introduced, HPO₄^2? substituted for HCO₃^? or SO₄^2? replaced Cl^?. Consequently, the increase in $\text{I}{}_{\mathrm{<mtext>sc</mtext>}}$ is not due to the change of Cl^?, H⁺ or HCO₃^? flux. This behavior in a ‘tight’ epithelium may be related to the mechanism controlling apical sodium permeability.     

Anomalous enhancing effect of hydroxyurea on DNA synthesis

$\text{In vitro}$ cultures of $\text{Crithidia}$ sp. were exposed to various concentrations of hydroxyurea (HU) during the logarithmic phase. In the presence of 5 × 10^?2M HU, cell division was completely blocked after an initial increase in cell numbers by about 20%. Inhibition of incorporation of ³H-thymidine into acid-insoluble material was effective within 1 hr of exposure to the drug (5 × 10^?2M) and it reached a level of 80% after 8 hr. At lower concentrations (5 × 10^?4M ? 1 × 10^?3M), however, incorporation of ³H-thymidine was remarkably increased while cell division remained unaffected indicating that the increase in incorporation was not due to increased DNA synthesis in preparation for cell division.     

Inhibition of spider mite ATPases by plictran and three organochlorine acaricides

The ATPase enzyme system from two-spotted spider mites, $\text{Tetranychus}$$\text{urticae}$ (Koch) was sensitive, in vitro, to four acaricides. Tricyclohexylhydroxytin (Plictran^R) was an outstanding inhibitor of oligomycin-sensitive (mitochondrial) Mg²⁺ATPase from fish brain and spider mite homogenates. The I₅₀ values were 6.6×10^?11M and 6.2×10^?10M, respectively. Less effective were chlorbenside, chlorfenethol and ovotran. Plictran at a higher concentration (2×10^?7M) was also more effective on Na⁺-K⁺ATPase both in mites and fish brain homogenates as compared to chlorfenethol, chlorbenside and ovotran. Plictran inhibited oligomycin-insensitive Mg²⁺ATPase at concentrations of 10^?8M but stimulated at high concentrations (5×10^?6M and higher).     

Specific platinum chelation by the guanines of the deoxyhexanucleotide d(T-G-G-C-C-A) upon reaction with cis-[Pt(NH3)2(H2O)2](NO3)2

The stoichiometric reaction between d-TpGpGpCpCpA (d(T-G-G-C-C-A)) and $\text{cis}$-[Pt(NH₃)₂(H₂O)₂](NO₃)₂ (8.4 × 10^?6 to 1.3 × 10^?4M in water at pH 5.5–6) gives a single complex. High pressure gel permeation chromatography and pH-dependent ¹H NMR analyses of the nonexchangeable base protons, show that it is a platinum chelate with the $\text{cis}$-Pt^II(NH₃)₂ moiety bound to the two N7 atoms of the adjacent guanines. A 3 × 10^?3M reaction gives the same platinum chelate, via the formation of intermediate complexes, together with unsoluble adducts.     

A new antibiotic with known resistance factors,G418, inhibits plant cells

Growth rates of two lines of tobacco ($\text{Nicotiana}\text{tabacum}$) cell suspension cultures were measured in the presence or absence of G418, a new 2-deoxystreptamine antibiotic related to Gentamycin. Cell growth rates of $\text{N}$. $\text{tabacum}$ cv. Burley were inhibited at drug concentrations as low as 1.65 × 10^?7 M. At 4 × 10^?7 M, the doubling time was increased from 1.5 days (control) to 2.3 days (treatment). The drug was lethal to cells at 4 × 10^?6 M, and inhibition was irreversible. Cells of $\text{N}$. $\text{tabacum}$ cv. Wisconsin 38 also were inhibited by the drug, although at slightly higher concentrations (ca. 2–5 fold).In view of our findings, G418 and its associated resistance factors could be of great value in plant genetic engineering.     

Characterization of beta-adrenergic receptor and adenylate cyclase in canine cerebellum.

Binding of (?)-[${}^3\text{H}$]dihydroalprenolol to the synaptic membrane fractions of canine cerebellum was rapid and reversible with rate constants of 1.62 × 10⁸m^?1 min^?1 and 0.189 min^?1 for the forward and reverse reactions, respectively. The binding was of high affinity and saturable with an equilibrium dissociation constant (K_D) of 5 to 7 nm. Bound (?)-[${}^3\text{H}$]-dihydroalprenolol was displaceable with β-adrenergic agonists and antagonists, but not with a variety of other neuroactive substances such as acetylcholine, histamine, serotonin, dopamine, tyramine, (?)-phenylephrine, γ-aminobutyric acid, glycine, and glutamic acid. Adenylate cyclase of the membranes was stimulated at most three times by β-adrenergic agonists, but not significantly by the other neuroactive substances. Guanine nucleotides such as GTP and guanyl-5′-yl imidodiphosphate (Gpp(NH)p) were strictly required for β-adrenergic stimulation of adenylate cyclase with their optimum concentrations of 50 μm, although the nucleotides alone elevated virtually no basal activity. The affinities of β-adrenergic ligands including some stereoisomers for (?)-[${}^3\text{H}$]dihydroalprenolol binding sites were very similar to those for adenylate cyclase in the presence of GTP. Binding of β-adrenergic agonists to the membranes exhibited an apparent negative cooperativity as determined by displacement of (?)-[${}^3\text{H}$]dihydroalprenolol in the absence of purine nucleotides. This negative cooperativity was entirely abolished by addition of either GTP or Gpp(NH)p at 50 μm. Both (?)-isoproterenol-stimulated adenylate cyclase activity and binding of (?)-[${}^3\text{H}$]dihydroalprenolol were not affected by β₁-selective antagonists, (±)-atenolol, and (±)-practolol, at concentrations which completely inhibit peripheral β₁-responses in vitro, whereas β₂-selective agonists such as YM-08316 (BD-40A) and (±)-salbutamol not only stimulated adenylate cyclase but also competitively inhibited binding of (?)-[${}^3\text{H}$]dihydroalprenolol. These results indicate that canine cerebellar adenylate cyclase may be coupled specifically with β₂-adrenergic receptor.     

Studies on two isozymes of aconitase from Bacillus cereus T. III. Enzymatic properties.

The present communication describes a comparative study of some enzymatic properties of an early and a late aconitase (EC.4.2.1.3) present in $\text{Bacillus}\text{cereus}$ T cells of 5 and 12 hr culture age, respectively. The activity of both enzymes increased linearly with increase in enzyme concentration. They demonstrated similar pH *7.5) and temperature (30 C) optima, but differed in their activation energy and affinity for substrate. Late aconitase had higher activation energy (16,100 cal) as compared to early aconitase (9,200 cal). Early aconitase showed a Km value of 100 × 10^?4M for sodium citrate and 33.3 × 10^?4M for isocitrate. Late aconitase exhibited 5 to 7 times greater affinity for citrate and isocitrate yielding Km values 14 × 10^?4M and 7 × 10^?4M, respectively. On the basis of available evidence, it is suggested that early and late aconitase present in 5 and 12 hr aged cells of $\text{Bacillus}\text{cereus}$ T behave as isozymes, and may be designated as aconitase (EC.4.2.1.3) isozyme I and aconitase (EC.4.2.1.3) isozyme II, respectively. The significance of their plausible role during growth and sporulation has been discussed.     

Vasopressin and water permeability of artificial lipid membranes

Vasopressin markedly stimulated the water permeability of bilayer lipid membranes: a two-fold increase was measured at 25° in presence of 1.7·10⁻⁹ M (50 μunits/ml) vasopressin. Oxytocin and a mixture of the amino acids comprising the vasopressin molecule could not substitute for vasopressin at comparable concentration. The experimental activation energy of water transport was reduced in the presence of vasopressin from 14 to 4 kcal/mole, in agreement with the effect of the hormone on water permeability of toad bladder.     

Energy-dependent endocytosis in erythrocyte ghosts. IV. Effects of Ca2+, Na+ + K+, and 5'-adenylylimidodiphosphate

The requirement of actual splitting of ATP for endocytosis in erythrocyte ghosts has been confirmed by use of the ATP analog, 5'-adenylylimidodiphosphate. (AMP-P(NH)P. This compound, in which the oxygen connecting the β and γ phosphorus atoms was replaced by an NH group, did not cause endocytosis nor was it a substrate for ATPase activity. AMP-P(NH)P was a competitive inhibitor both for the endocytosis and the Mg²⁺-ATPase activities. The $\text{K}{}_{\mathrm{<mtext>1</mtext>}}$ of AMP-P(NH)P for Mg²⁺-ATPase activity was 2.0 · 10^?4 M and, while the $\text{K}{}_{\mathrm{<mtext>m</mtext>}}$ of ATP for this activity was also 2.0 · 10^?4 M indicating nearly identical affinities of ATP and AMP-P(NH)P for the active site. ADP, or ADP plus orthophosphate, did not cause endocytosis, showing that endocytosis was not due to binding of the products of ATP hydrolysis. Sodium or potassium ion or ouabain had no effect on endocytosis, which eliminated the possibility of involvement of the Na⁺, K⁺ ATPase in the endocytosis process. Calcium could not be substituted for magnesium; rather it inhibited endocytosis at the concentration of 1 · 10^?3 M. EGTA relieved the inhibitory effect of Ca, which indicated that the binding of calcium to the membrane was reversible. These experimental results reaffirm the conclusion that ATP must be split to engender endocytosis under these conditions. Some characteristic parameters of the hemoglobin-fre porcine erythrocyte ghosts were studied in order to characterize the system more adequately.