Your search keyword '"Mollusk Venoms metabolism"' showing total 15 results

1. Immediate and delayed effects of a heatwave and Prorocentrum lima ((Ehrenberg) Stein 1878) bloom on the toxin accumulation, physiology, and survival of the oyster Magallana gigas (Thunberg, 1793).

Author

Funesto EGM, Lewis AM, Turner AD, Cameron TC, and Steinke M

Subjects

Hemocytes cytology, Oceans and Seas, Shellfish Poisoning, Global Warming, Humans, Animals, Aquaculture, Extreme Heat adverse effects, Ostreidae metabolism, Ostreidae physiology, Eutrophication, Mollusk Venoms analysis, Mollusk Venoms metabolism, Seawater chemistry, Dinoflagellida growth & development, Dinoflagellida metabolism

Abstract

Warming could facilitate the intensification of toxic algal blooms, two important stressors for marine organisms that are predicted to co-occur more frequently in the future. We investigated the immediate and delayed effects of a heatwave and a simulated bloom (3 × 10 6 cells L -1) of the diarrhetic shellfish toxin (DST)-producing benthic dinoflagellate Prorocentrum lima on the survival, physiology (oxygen consumption rate, condition index, immune parameters), and toxin accumulation in the Pacific rock oyster Magallana (Crassostrea) gigas. Oysters exposed to both stressors contained higher mean DST concentrations (mean ± 1 SE: 173.3 ± 19.78 μg kg -1 soft tissue) than those exposed to P. lima bloom alone (120.4 ± 20.90 μg kg -1 ) and exceeded the maximum permitted levels for human consumption. Exposure to individual stressors and their combination modified the physiology of M. gigas. Oysters exposed to heatwave alone had significantly higher oxygen consumption rates (0.7 ± 0.06 mg O 2 h -1  g -1 ) than the control (0.3 ± 0.06 mg O 2 h -1  g -1 ). However, this was not observed in oysters exposed to both heatwave and P. lima (0.5 ± 0.06 mg O 2 h -1  g -1 ). This alteration of the metabolic response to warming in the presence of P. lima may affect the ability of rock oysters to adapt to environmental stressors (i.e., a heatwave) to ensure survival. Immunomodulation, through changes in total hemocyte count, was observed in oysters exposed to P. lima alone and in combination with warming. Individual stressors and their combination did not influence the condition index, but one mortality was recorded in oysters exposed to both stressors. The findings of this study highlight the vulnerability of rock oysters to the predicted increased frequency of heatwaves and toxic algal blooms, and the increased likelihood of shellfish containing higher than regulatory levels of DST in warming coasts., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

2. Discovery by proteogenomics and characterization of an RF-amide neuropeptide from cone snail venom.

Author

Robinson SD, Safavi-Hemami H, Raghuraman S, Imperial JS, Papenfuss AT, Teichert RW, Purcell AW, Olivera BM, and Norton RS

Subjects

Amino Acid Sequence, Animals, Cells, Cultured, Conotoxins genetics, Conotoxins isolation & purification, Conotoxins metabolism, Conotoxins pharmacology, Conus Snail chemistry, Genetic Association Studies methods, Genomics, Mice, Mice, Inbred C57BL, Molecular Sequence Data, Mollusk Venoms genetics, Mollusk Venoms metabolism, Mollusk Venoms pharmacology, Neurons cytology, Neurons drug effects, Neuropeptides genetics, Neuropeptides metabolism, Neuropeptides pharmacology, Proteomics, Conus Snail genetics, Conus Snail metabolism, Mollusk Venoms isolation & purification, Neuropeptides isolation & purification

Abstract

In this study, a proteogenomic annotation strategy was used to identify a novel bioactive peptide from the venom of the predatory marine snail Conus victoriae. The peptide, conorfamide-Vc1 (CNF-Vc1), defines a new gene family. The encoded mature peptide was unusual for conotoxins in that it was cysteine-free and, despite low overall sequence similarity, contained two short motifs common to known neuropeptides/hormones. One of these was the C-terminal RF-amide motif, commonly observed in neuropeptides from a range of organisms, including humans. The mature venom peptide was synthesized and characterized structurally and functionally. The peptide was bioactive upon injection into mice, and calcium imaging of mouse dorsal root ganglion (DRG) cells revealed that the peptide elicits an increase in intracellular calcium levels in a subset of DRG neurons. Unusually for most Conus venom peptides, it also elicited an increase in intracellular calcium levels in a subset of non-neuronal cells., Biological Significance: Our findings illustrate the utility of proteogenomics for the discovery of novel, functionally relevant genes and their products. CNF-Vc1 should be useful for understanding the physiological role of RF-amide peptides in the molluscan and mammalian nervous systems., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015

3. Large-scale discovery of conopeptides and conoproteins in the injectable venom of a fish-hunting cone snail using a combined proteomic and transcriptomic approach.

Author

Violette A, Biass D, Dutertre S, Koua D, Piquemal D, Pierrat F, Stöcklin R, and Favreau P

Subjects

Amino Acid Sequence, Animals, Combinatorial Chemistry Techniques, Conotoxins administration & dosage, Conotoxins chemistry, Conotoxins genetics, Conus Snail genetics, Conus Snail metabolism, Conus Snail pathogenicity, High-Throughput Screening Assays, Injections, Molecular Sequence Data, Mollusk Venoms analysis, Mollusk Venoms genetics, Mollusk Venoms metabolism, Peptides chemistry, Peptides genetics, Peptides metabolism, Proteins chemistry, Proteins genetics, Proteins metabolism, Sequence Homology, Amino Acid, Transcriptome physiology, Conotoxins isolation & purification, Conus Snail chemistry, Drug Discovery methods, Gene Expression Profiling methods, Mollusk Venoms chemistry, Proteomics methods

Abstract

Predatory marine snails of the genus Conus use venom containing a complex mixture of bioactive peptides to subdue their prey. Here we report on a comprehensive analysis of the protein content of injectable venom from Conus consors, an indo-pacific fish-hunting cone snail. By matching MS/MS data against an extensive set of venom gland transcriptomic mRNA sequences, we identified 105 components out of ~400 molecular masses detected in the venom. Among them, we described new conotoxins belonging to the A, M- and O1-superfamilies as well as a novel superfamily of disulphide free conopeptides. A high proportion of the deduced sequences (36%) corresponded to propeptide regions of the A- and M-superfamilies, raising the question of their putative role in injectable venom. Enzymatic digestion of higher molecular mass components allowed the identification of new conkunitzins (~7 kDa) and two proteins in the 25 and 50 kDa molecular mass ranges respectively characterised as actinoporin-like and hyaluronidase-like protein. These results provide the most exhaustive and accurate proteomic overview of an injectable cone snail venom to date, and delineate the major protein families present in the delivered venom. This study demonstrates the feasibility of this analytical approach and paves the way for transcriptomics-assisted strategies in drug discovery., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

4. NR2B-selective conantokin peptide inhibitors of the NMDA receptor display enhanced antinociceptive properties compared to non-selective conantokins.

Author

Xiao C, Huang Y, Dong M, Hu J, Hou S, Castellino FJ, Prorok M, and Dai Q

Subjects

Amino Acid Sequence, Animals, Conotoxins genetics, Female, Inflammation chemically induced, Inflammation physiopathology, Intercellular Signaling Peptides and Proteins, Male, Mice, Molecular Sequence Data, Mollusk Venoms genetics, Motor Activity physiology, Pain Measurement, Peptides genetics, Reaction Time, Receptors, N-Methyl-D-Aspartate metabolism, Rotarod Performance Test, Analgesics metabolism, Conotoxins metabolism, Excitatory Amino Acid Antagonists metabolism, Mollusk Venoms metabolism, Peptides metabolism, Receptors, N-Methyl-D-Aspartate antagonists & inhibitors

Abstract

NR2B-selective inhibitors show lower side-effects in preclinical pain models than non-selective NMDA receptor (NMDAR) antagonists, but it is unclear whether the improved safety of NR2B-selective inhibitors is due to their subtype selectivity or to a unique mode of inhibition of the receptor. In this study, the analgesic effects of intracerebral bolus injections of conantokin peptides with different NMDAR subunit selectivity were determined in mice by the standard hot-plate test, and following stimuli with acetic acid, formalin and complete Freund's adjuvant (CFA). In the standard hot-plate model, con-G[S16Y], a NR2B-selective inhibitor, showed the highest analgesic activity among conantokin peptides tested. In the acetic acid- and CFA-induced pain models, con-G[S16Y] and, to a lesser extent, con-G exhibited higher analgesic activity compared to non-selective inhibitors, such as con-R[1-17]. In the formalin test, while all conantokin peptides could partially suppress the first phase response, only con-G[S16Y] and con-G significantly inhibited the second phase response and suppressed paw edema. Our results suggest that the antinociceptive action of the conantokins may be related to their NR2B-selectivity and that these peptides may be useful as both neurobiological tools for probing mechanisms of nociception and as therapeutic agents for pain relief.

Published

2008

5. High affinity displacement of [(3)H]NPY binding to the crude venom of conus anemone by insect neuropeptides.

Author

Le MT, Vanderheyden PM, De Backer JP, Vanquelin G, and Broeck JV

Subjects

Amino Acid Sequence, Animals, Brain, CHO Cells, Cattle, Cricetinae, Decapoda, Humans, Immune Sera immunology, Insect Proteins chemistry, Insecta, Molecular Sequence Data, Mollusk Venoms chemistry, Neuropeptide Y analogs & derivatives, Neuropeptide Y immunology, Neuropeptides chemistry, Pancreatic Polypeptide metabolism, Peptide Fragments chemistry, Peptide Fragments metabolism, Peptide YY metabolism, Protein Binding, Receptors, Neuropeptide Y antagonists & inhibitors, Receptors, Neuropeptide Y genetics, Receptors, Neuropeptide Y metabolism, Sequence Alignment, Insect Proteins metabolism, Mollusk Venoms metabolism, Neuropeptide Y metabolism, Neuropeptides metabolism

Abstract

The venom from Conus anemone contains a protein, named ANPY toxin, which displayed high affinity (IC(50) in nanomolar range) to neuropeptide Y (NPY), [Leu(31), Pro(34)]NPY, peptide YY, pancreatic polypeptide, the Y(1) antagonist 1229U91, and C-terminal NPY fragments. N-terminal fragments and the free acid form of NPY did not bind to ANPY. The truncated NPY fragments displayed very low affinity to Y(1) receptors and partially inhibited [(3)H]NPY binding to anti-NPY antiserum. Several insect neuropeptides, the sequences of which related to the C-terminal fragments of NPY, were observed to bind with similar affinity or even 20 times higher (Lom-MS and Scg-NPF) affinity than NPY. In contrast, no significant binding of these insect peptides was observed for Y(1) receptors and anti-NPY antiserum. Therefore, ANPY can be viewed as an acceptor that binds with very high affinity to a broad spectrum of vertebrate and invertebrate neuropeptides that share a similar C-terminal amino acid sequence., (Copyright 1999 Academic Press.)

Published

1999

6. Structure-activity relationships of omega-conotoxins MVIIA, MVIIC and 14 loop splice hybrids at N and P/Q-type calcium channels.

Author

Nielsen KJ, Adams D, Thomas L, Bond T, Alewood PF, Craik DJ, and Lewis RJ

Subjects

Amino Acid Sequence, Animals, Calcium Channel Blockers metabolism, Calcium Channels metabolism, Molecular Sequence Data, Mollusk Venoms metabolism, Peptides metabolism, Protein Conformation, Rats, Sequence Homology, Amino Acid, Structure-Activity Relationship, Calcium Channel Blockers chemistry, Calcium Channels chemistry, Mollusk Venoms chemistry, Peptides chemistry, RNA Splicing, omega-Conotoxins

Abstract

The omega-conotoxins are a set of structurally related, four-loop, six cysteine containing peptides, that have a range of selectivities for different subtypes of the voltage-sensitive calcium channel (VSCC). To investigate the basis of the selectivity displayed by these peptides, we have studied the binding affinities of two naturally occurring omega-conotoxins, MVIIA and MVIIC and a series of 14 MVIIA/MVIIC loop hybrids using radioligand binding assays for N and P/Q-type Ca2+channels in rat brain tissue. A selectivity profile was developed from the ratio of relative potencies at N-type VSCCs (using [125I]GVIA radioligand binding assays) and P/Q-type VSCCs (using [125I]MVIIC radioligand binding assays). In these peptides, loops 2 and 4 make the greatest contribution to VSCC subtype selectivity, while the effects of loops 1 and 3 are negligible. Peptides with homogenous combinations of loop 2 and 4 display clear selectivity preferences, while those with heterogeneous combinations of loops 2 and 4 are less discriminatory. 1H NMR spectroscopy revealed that the global folds of MVIIA, MVIIC and the 14 loop hybrid peptides were similar; however, several differences in local structure were identified. Based on the binding data and the 3D structures of MVIIA, GVIA and MVIIC, we have developed a preliminary pharmacophore based on the omega-conotoxin residues most likely to interact with the N-type VSCC., (Copyright 1999 Academic Press.)

Published

1999

7. The snail companies. Neurex Corporation & Cognetix Inc.

Author

Wells WA

Subjects

Animals, Calcium Channel Blockers chemistry, Calcium Channel Blockers therapeutic use, Humans, Mollusk Venoms metabolism, Neuroprotective Agents therapeutic use, Palliative Care, Patents as Topic, Peptides metabolism, Peptides therapeutic use, Snails, Mollusk Venoms chemistry, Technology, Pharmaceutical, omega-Conotoxins

Published

1998

8. Incidence of serum anti-P/O-type and anti-N-type calcium channel autoantibodies in the Lambert-Eaton myasthenic syndrome.

Author

Motomura M, Lang B, Johnston I, Palace J, Vincent A, and Newsom-Davis J

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Animals, Binding Sites, Calcium Channel Blockers metabolism, Calcium Channels drug effects, Carcinoma, Small Cell immunology, Case-Control Studies, Cerebellum immunology, Female, Humans, Lung Neoplasms immunology, Male, Middle Aged, Mollusk Venoms metabolism, Peptides metabolism, Rabbits, Radioligand Assay, Autoantibodies blood, Calcium Channels immunology, Cerebellum metabolism, Lambert-Eaton Myasthenic Syndrome immunology, omega-Conotoxins

Abstract

The Lambert-Eaton myasthenic syndrome (LEMS) is an autoimmune disease in which autoantibodies are directed against voltage-gated calcium channels (VGCCs) at presynaptic nerve terminals. We first demonstrated the presence of P/Q-type and N-type VGCCs in digitonin extracts prepared from human and rabbit cerebellum using the specific ligands 125I-omega-conotoxin MVIIC (125I-omega-CmTx) and 125I-omega-conotoxin GVIA (125I-omega-CgTx), respectively. We then tested sera from 72 LEMS patients' 25 with proven small cell lung cancer (SCLC) and 66 healthy or other neurological, SCLC or autoimmune disease controls in an immunoprecipitation assay using 125I-omega-CmTx-labelled (P/Q-type) VGCCs in human cerebellar extract. Sixty-six of 72 LEMS serum samples (91.7%) were positive for the presence of VGCC antibodies, as defined as a titre greater than 3 standard deviations above the mean for the healthy controls (n = 22). Rabbit cerebellar extract as antigen gave similar results (r = 0.94, P < 0.001, n = 30). By contrast, only 24/72 (33%) LEMS sera were positive in the assay for anti-N-type VGCC antibodies using 125I-omega-CgTx. All these 24 were also positive in the 125I-omega-CmTx assay. All healthy and disease control sera were negative in both assays. The anti-P/Q-type VGCC antibody titres did not correlate with an electrophysiological index of disease severity across individuals; however, longitudinal studies in a LEMS patient with SCLC receiving chemotherapy, and in a non-SCLC LEMS patient receiving immunosuppressive therapy showed an inverse relation between antibody titre and disease severity. These results support the view that anti-P/Q-type VGCC antibodies are implicated in the motor disorder in LEMS, and show that the omega-CmTx radioimmunoassay is a highly specific and sensitive means of detecting them.

Published

1997

9. Development of a capillary electrophoresis method for the characterization of enzymatic products arising from the carbamoylase digestion of paralytic shellfish poisoning toxins.

Author

Buzy A, Thibault P, and Laycock MV

Subjects

Animals, Mass Spectrometry, Spectrophotometry, Ultraviolet, Bivalvia chemistry, Carboxylic Ester Hydrolases metabolism, Electrophoresis methods, Mollusk Venoms metabolism

Abstract

A sample stacking procedure is presented for the capillary electrophoretic (CE) separation of paralytic shellfish poisoning (PSP) toxins dissolved in high ionic strength buffers. The application of such a stacking procedure prior to the zone electrophoretic separation is demonstrated for the analysis of decarbamoyl toxins arising from the digestion of PSP toxins by an hydrolytic enzyme from little neck clams (Protothaca staminea). Improvements in separation efficiency facilitated identification and quantitation of substrates and enzymatic products present in the digest using CE. The separation conditions developed were found to be entirely compatible with electrospray mass spectrometry, which permitted the analysis of PSP toxins and their decarbamoyl derivatives present in the low micromolar range in crude enzyme digests. The products released during the enzymatic digestion were identified using CE combined with tandem mass spectrometry.

Published

1994

10. Different localization of receptors for omega-conotoxin and nitrendipine in rat brain.

Author

Takemura M, Fukui H, and Wada H

Subjects

Animals, Calcium Channels, Male, Mitochondria metabolism, Rats, Rats, Inbred Strains, Synaptosomes metabolism, omega-Conotoxin GVIA, Brain Chemistry, Ion Channels metabolism, Mollusk Venoms metabolism, Nitrendipine metabolism, Receptors, Neurotransmitter metabolism, Receptors, Nicotinic metabolism, omega-Conotoxins

Abstract

The bindings of radioiodinated omega-conotoxin GVIA and [3H]-nitrendipine to subcellular fractions of rat brain were examined. The results indicated that omega-conotoxin binding site was mainly present in the mitochondrial fraction, whereas nitrendipine binding site was rich in the mitochondrial but also present in the post-mitochondrial fraction. Fractionation of the mitochondrial fraction on a sucrose density gradient centrifugation showed that the both binding sites were localized in the heavy synaptosomal fraction. These results strongly suggest that the N- and L-type voltage-sensitive calcium channels have different localizations.

Published

1987

11. Enzymatic transformation of PSP toxins in the littleneck clam (Protothaca staminea).

Author

Sullivan JJ, Iwaoka WT, and Liston J

Subjects

Animals, Biotransformation, Decarboxylation, Species Specificity, Structure-Activity Relationship, Bivalvia metabolism, Mollusk Venoms metabolism

Abstract

Stemming from investigations into the relationship between toxins produced by Gonyaulax sp. and accumulated in shellfish, we wish to report enzymatic transformations of the PSP toxins to decarbamoyl derivatives in the littleneck clam (Protothaca staminea). No toxin transformations were observed in either mussels (Mytilus edulis) or in butter clams (Saxidomus giganteus). In addition, littleneck clam samples from the natural environment contained predominantly the decarbamoyl derivatives, while other shellfish species collected from the same vicinity contained the previously reported PSP toxins.

Published

1983

12. Evidence for distinct sites coupled to high affinity omega-conotoxin receptors in rat brain synaptic plasma membrane vesicles.

Author

Feigenbaum P, Garcia ML, and Kaczorowski GJ

Subjects

Animals, Binding, Competitive, Calcium Channel Blockers metabolism, Kinetics, Rats, Rats, Inbred Strains, omega-Conotoxin GVIA, Brain metabolism, Calcium Channels, Mollusk Venoms metabolism, Receptors, Neurotransmitter metabolism, Synaptic Membranes metabolism

Abstract

The neuronal Ca2+ channel blocker omega-conotoxin (GVIA) binds with very high affinity (Kd of 0.8 pM) to a single class of receptors in purified rat brain synaptic plasma membrane vesicles. Three types of agents have been found to modulate toxin binding. The affinity of omega-conotoxin is decreased by metal ions or organic cations which interact at the pore of voltage-dependent Ca2+ channels. Dynorphin A [1-13] and related peptides stimulate omega-conotoxin binding by increasing toxin affinity through a nonopiate allosteric mechanism. Venom of the spider Plectreurys tristes inhibits omega-conotoxin binding (IC50 of 30 ng protein/ml) by a noncompetitive allosteric mechanism. These results suggest that omega-conotoxin binding sites exist in a complex with distinct receptors for other agents, all of which may be functionally associated with neuronal Ca2+ channels.

Published

1988

13. The calcium channel antagonist omega-conotoxin inhibits secretion from peptidergic nerve terminals.

Author

Dayanithi G, Martin-Moutot N, Barlier S, Colin DA, Kretz-Zaepfel M, Couraud F, and Nordmann JJ

Subjects

Animals, Cell Membrane physiology, Dihydropyridines pharmacology, Electric Stimulation, In Vitro Techniques, Kinetics, Male, Mollusk Venoms metabolism, Nerve Endings drug effects, Nicardipine pharmacology, Pituitary Gland, Posterior drug effects, Pituitary Gland, Posterior metabolism, Potassium pharmacology, Rats, Reference Values, Verapamil analogs & derivatives, Verapamil pharmacology, omega-Conotoxin GVIA, Arginine Vasopressin metabolism, Calcium Channel Blockers pharmacology, Mollusk Venoms pharmacology, Nerve Endings physiology, Pituitary Gland, Posterior physiology

Abstract

The binding of omega-conotoxin to isolated rat neurohypophysial nerve terminals, its effect on the depolarization-induced increase of cytoplasmic Ca2+ and on the potassium and electrically-induced release of vasopressin (AVP) have been studied. The results show that isolated neurosecretory nerve endings have calcium channels with a high affinity for omega-CgTx and that this toxin inhibits neurohormone release at very low concentration (IC50 = 0. 1nM). Although secretion of vasopressin is inhibited to a great extent by the toxin it is shown that a small but significant amount of the depolarization-induced AVP release is insensitive to omega-CgTx and to the dihydropyridine molecule nicardipine.

Published

1988

14. Properties of structure and interaction of the receptor for omega-conotoxin, a polypeptide active on Ca2+ channels.

Author

Barhanin J, Schmid A, and Lazdunski M

Subjects

Animals, Brain metabolism, Calcium Channel Blockers, Cell Membrane, Chickens, Cross-Linking Reagents, Microsomes metabolism, Mollusk Venoms metabolism, Muscles metabolism, Myocardium metabolism, Rabbits, Rats, Succinimides, Synaptosomes metabolism, Tissue Distribution, omega-Conotoxin GVIA, Calcium metabolism, Calcium Channels, Ion Channels metabolism, Receptors, Neurotransmitter metabolism

Abstract

Binding properties of omega-conotoxin (GVIA) to avian and mammalian neuronal Ca2+ channels were investigated using a radioiodinated toxin derivative. An exceptionally high affinity of 0.6 to 2 pM was found both from equilibrium and kinetics measurements. Only one class of non-interacting binding sites was detected. In chick brain, dissucinimidyl suberate specifically cross-linked the toxin to 170 kDa component that comprises a 140 kDa peptide disulfide linked to a 30 kDa peptide, very similar to the heavily glycosylated component of the L-type DHP-sensitive Ca2+ channel. A large peptide of 210-220 kDa was labelled using the azidonitrobenzoyloxy derivative of omega-conotoxin as cross-linking reagent but not the 170/140+30 kDa component. The results suggest that the neuronal Ca2+ channel could be composed by the association of two distinct high molecular weight peptides of 220 kDa and 170/140+30 kDa.

Published

1988

15. Calcium channel binding in nerves and muscle of canine small intestine.

Author

Ahmad S, Rausa J, Jang E, and Daniel EE

Subjects

Animals, Cell Fractionation, Cell Membrane metabolism, Centrifugation, Density Gradient, Dogs, Intestine, Small metabolism, Intestine, Small ultrastructure, Mollusk Venoms metabolism, Neurons metabolism, Nitrendipine metabolism, Synaptic Membranes metabolism, Calcium Channels metabolism, Intestine, Small innervation, Muscle, Smooth metabolism, omega-Conotoxins

Abstract

Using [3H]-nitrendipine (Nit) and [125I]-omega conotoxin (w-CTX), the cellular and subcellular distribution of calcium channel subtypes in the homogenates of canine small intestinal circular muscle was studied. Nit. bound to the membranes from the circular smooth muscle cells (PM) and to the synaptosomal membranes from the deep muscular plexus (DMP); the Kd and Bmax values of Nit binding from these two sources were similar (Kd 0.4 +/- 0.16 nM and 0.77 +/- 0.24 nM; Bmax 206 +/- 22 and 192 +/- 39 fmol/mg of protein in DMP and PM respectively). w-CTX, however, bound only to the DMP (Kd 18.41 +/- 7.5 pM, Bmax 265 +/- 36 fmol/mg of protein). In DMP, nifedipine (10(-6) M) failed to interact with the binding of w-CTX; similarly, no modulation of Nit binding with unlabelled w-CTX (10(-7) M) could be detected. Therefore w-CTX and Nit binding sites represent two distinct, non-interactive and differentially distributed binding sites in canine small intestine.

Published

1989