Your search keyword '"Cropper E"' showing total 6 results

1. cAMP-Dependent Phosphorylation of Aplysia Twitchin May Mediate Modulation of Muscle Contractions by Neuropeptide Cotransmitters

Author

Probst, W. C., Cropper, E. C., Heierhorst, J., Hooper, S. L., Jaffe, H., Vilim, F., Beushausen, S., Kupfermann, I., and Weiss, K. R.

Published

1994

2. Purification and Sequencing of Neuropeptides Contained in Neuron R15 of Aplysia californica

Author

Weiss, K. R., Bayley, H., Lloyd, P. E., Tenenbaum, R., Buck, L., Cropper, E. C., Rosen, S. C., and Kupfermann, I.

Published

1989

3. Structure and action of buccalin: a modulatory neuropeptide localized to an identified small cardioactive peptide-containing cholinergic motor neuron of Aplysia californica.

Author

Cropper, E C, Miller, M W, Tenenbaum, R, Kolks, M A, Kupfermann, I, and Weiss, K R

Abstract

A model system that consists of a muscle utilized in biting, the accessory radula closer (ARC), and the two cholinergic motor neurons innervating this muscle, neurons B15 and B16, has been used to study the expression of food-induced arousal in the marine mollusk Aplysia. The ARC muscle receives modulatory input from an extrinsic source, the serotonergic metacerebral cells, which partially accounts for the progressive increase in the strength of biting seen in aroused animals. Another source of modulation may arise from the ARC motor neurons themselves, which synthesize neuropeptides that can potentiate ARC contractions. Neuron B15 synthesizes the two homologous peptides, small cardioactive peptides A and B, whereas neuron B16 synthesizes the structurally unrelated peptide myomodulin. Here we report the purification and sequencing of a neuropeptide termed buccalin and show that it is colocalized with the small cardioactive peptides to neuron B15. Buccalin is also bioactive at the ARC neuromuscular junction but, in contrast to the small cardioactive peptides, when exogenously applied, it decreases rather than increases the size of muscle contractions elicited by firing of the motor neurons. Also unlike the small cardioactive peptides, which exert postsynaptic actions, buccalin seems to act only presynaptically. It has no effect on muscle relaxation rate and decreases motor neuron-elicited excitatory junction potentials in the ARC without affecting contractions produced by direct application of acetylcholine to the muscle. Neuron B15, therefore, appears to contain three modulatory neurotransmitters, two of which may act postsynaptically on the muscle to potentiate the action of the primary neurotransmitter acetylcholine and one of which may act presynaptically on nerve terminals to inhibit acetylcholine release.

Published

1988

4. Release of peptide cotransmitters from a cholinergic motor neuron under physiological conditions.

Author

Cropper, E C, Price, D, Tenenbaum, R, Kupfermann, I, and Weiss, K R

Abstract

In previous studies, we demonstrated that B15, one of the two cholinergic motor neurons of the accessory radula closer muscle of Aplysia, synthesizes two peptides, small cardioactive peptides A and B (SCPA and SCPB), that, when exogenously applied, increase the size and relaxation rate of muscle contractions elicited by motor neuron stimulation. In the present experiments, we obtained evidence that the SCPs are released under physiological conditions. Specifically, we characterized firing patterns of motor neuron B15 during normal behavior, simulated them in vitro, and demonstrated that this type of neuronal activity produces decreases in SCP levels in neuronal processes and terminals. We also obtained evidence that suggests that enough SCP is released under physiological conditions to modulate neuromuscular activity in the accessory radula closer. We demonstrated that physiological activity of neuron B15 produces significant increases in muscle cAMP levels. Furthermore, increases in the size and relaxation rate of muscle contractions can be produced by changes in stimulation parameters that are also likely to maximize effects of released endogenous SCPA and SCPB.

Published

1990

5. Myomodulin: a bioactive neuropeptide present in an identified cholinergic buccal motor neuron of Aplysia.

Author

Cropper, E C, Tenenbaum, R, Kolks, M A, Kupfermann, I, and Weiss, K R

Abstract

When Aplysia are initially exposed to food stimuli, their biting responses show progressive increases in speed and strength. The accessory radula closer (ARC) buccal muscles have been used to study this phenomenon, and it has been shown that changes in ARC muscle contraction are partially due to activity of a serotonergic neuron that modulates this muscle, by both a direct action and an action on two ARC motor neurons (B15 and B16). The motor neurons use acetylcholine as their excitatory transmitter, but they also contain bioactive peptides that can potentiate muscle contractions when they are exogenously applied. Motor neuron B15 contains the structurally related small cardioactive peptides A and B, whereas motor neuron B16 contains a different peptide--termed myomodulin. In the present study we determined the full amino acid sequence of myomodulin. Myomodulin is present in the ARC muscle, and exogenous application of the peptide potentiates ARC muscle contractions in a manner similar to the potentiation by small cardioactive peptides A and B. The structure of myomodulin, however, bears little resemblance to the small cardioactive peptides. Thus it appears that ARC muscle contractions may be regulated by at least three distinct classes of neuromodulators: serotonin, the small cardioactive peptides, and myomodulin.

Published

1987

6. Multiple neuropeptides in cholinergic motor neurons of Aplysia: evidence for modulation intrinsic to the motor circuit.

Author

Cropper, E C, Lloyd, P E, Reed, W, Tenenbaum, R, Kupfermann, I, and Weiss, K R

Abstract

Changes in Aplysia biting responses during food arousal are partially mediated by the serotonergic metacerebral cells (MCCs). The MCCs potentiate contractions of a muscle utilized in biting, the accessory radula closer (ARCM), when contractions are elicited by stimulation of either of the two cholinergic motor neurons B15 or B16 that innervate the muscle. We have now shown that ARCM contractions may also be potentiated by peptide cotransmitters in the ARCM motor neurons. We found that motor neuron B15 contains small cardioactive peptides A and B (SCPA and SCPB)--i.e., whole B15 neurons were bioactive on the SCP-sensitive Helix heart, as were reverse-phase HPLC fractions of B15 neurons that eluted like synthetic SCPA and SCPB. Furthermore, [35S]methionine-labeled B15 peptides precisely coeluted with synthetic SCPA and SCPB. SCPB-like immunoreactivity was associated with dense-core vesicles in the soma of B15 and in neuritic varicosities and terminals in the ARCM. B16 motor neurons did not contain SCPA or SCPB but contained an unidentified bioactive peptide. RP-HPLC of [35S]methionine-labeled B16s resulted in one major peak of radioactivity that did not coelute with either SCP and which, when subject to Edman degradation, yielded [35S]methionine in positions where there is no methionine in the SCPs. Exogenously applied B16 peptide potentiated ARCM contractions elicited by stimulation of B15 or B16 neurons. Thus, in this system there appear to be two types of modulation; one type arises from the MCCs and is extrinsic to the motor system, whereas the second type arises from the motor neurons themselves and hence is intrinsic.

Published

1987