BIOMAT Database Logo BIOMAT Database Logo

Modulation of spinal synaptic transmission by beta-melanocyte stimulating hormone (beta-MSH). 1985

W A Krivoy, and J R Couch, and J M Stewart

Synaptic modulation refers to altered excitability of a synapse by a substance that does not produce a spike potential at the synapse. Available evidence points to the conclusion that beta-melanocyte stimulating hormone (beta-MSH) modulates synaptic transmission through monosynaptic pathways in the cat spinal cord. Earlier evidence is reviewed, and new data are presented. In the first experiments populations of cells contributing to a knee jerk were studied using the Lloyd preparation, and MSH was found to increase the monosynaptic reflex. With intracellular single unit recording techniques, beta-MSH was found to facilitate recovery from synaptic transmission. With extracellular single unit recording techniques and iontophoretic methods for drug application, beta-MSH has been found to increase the probability of generation of single spike potentials by alpha-motoneurons in response to orthodromic stimulation. Administration of beta-MSH did not cause spontaneous discharge of alpha-motoneurons. The physiological and pharmacological importance of synaptic modulation is discussed.

UI MeSH Term Description Entries
D009074 Melanocyte-Stimulating Hormones Peptides with the ability to stimulate pigmented cells MELANOCYTES in mammals and MELANOPHORES in lower vertebrates. By stimulating the synthesis and distribution of MELANIN in these pigmented cells, they increase coloration of skin and other tissue. MSHs, derived from pro-opiomelanocortin (POMC), are produced by MELANOTROPHS in the INTERMEDIATE LOBE OF PITUITARY; CORTICOTROPHS in the ANTERIOR LOBE OF PITUITARY, and the hypothalamic neurons in the ARCUATE NUCLEUS OF HYPOTHALAMUS. MSH,Melanocyte Stimulating Hormone,Melanocyte-Stimulating Hormone,Melanophore Stimulating Hormone,Melanotropin,MSH (Melanocyte-Stimulating Hormones),Melanophore-Stimulating Hormone,Hormone, Melanocyte Stimulating,Hormone, Melanocyte-Stimulating,Hormone, Melanophore Stimulating,Melanocyte Stimulating Hormones,Stimulating Hormone, Melanocyte,Stimulating Hormone, Melanophore
D009435 Synaptic Transmission The communication from a NEURON to a target (neuron, muscle, or secretory cell) across a SYNAPSE. In chemical synaptic transmission, the presynaptic neuron releases a NEUROTRANSMITTER that diffuses across the synaptic cleft and binds to specific synaptic receptors, activating them. The activated receptors modulate specific ion channels and/or second-messenger systems in the postsynaptic cell. In electrical synaptic transmission, electrical signals are communicated as an ionic current flow across ELECTRICAL SYNAPSES. Neural Transmission,Neurotransmission,Transmission, Neural,Transmission, Synaptic
D012023 Reflex, Monosynaptic A reflex in which the AFFERENT NEURONS synapse directly on the EFFERENT NEURONS, without any INTERCALATED NEURONS. (Lockard, Desk Reference for Neuroscience, 2nd ed.) Monosynaptic Reflex
D002415 Cats The domestic cat, Felis catus, of the carnivore family FELIDAE, comprising over 30 different breeds. The domestic cat is descended primarily from the wild cat of Africa and extreme southwestern Asia. Though probably present in towns in Palestine as long ago as 7000 years, actual domestication occurred in Egypt about 4000 years ago. (From Walker's Mammals of the World, 6th ed, p801) Felis catus,Felis domesticus,Domestic Cats,Felis domestica,Felis sylvestris catus,Cat,Cat, Domestic,Cats, Domestic,Domestic Cat
D003655 Decerebrate State A condition characterized by abnormal posturing of the limbs that is associated with injury to the brainstem. This may occur as a clinical manifestation or induced experimentally in animals. The extensor reflexes are exaggerated leading to rigid extension of the limbs accompanied by hyperreflexia and opisthotonus. This condition is usually caused by lesions which occur in the region of the brainstem that lies between the red nuclei and the vestibular nuclei. In contrast, decorticate rigidity is characterized by flexion of the elbows and wrists with extension of the legs and feet. The causative lesion for this condition is located above the red nuclei and usually consists of diffuse cerebral damage. (From Adams et al., Principles of Neurology, 6th ed, p358) Decerebrate Posturing,Decorticate Rigidity,Decorticate State,Rigidity, Decerebrate,Rigidity, Decorticate,Decerebrate Posturings,Decerebrate Rigidity,Decerebrate States,Decorticate Rigidities,Decorticate States,Posturing, Decerebrate,Posturings, Decerebrate,Rigidities, Decorticate,State, Decerebrate,States, Decerebrate
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D000870 Anterior Horn Cells MOTOR NEURONS in the anterior (ventral) horn of the SPINAL CORD which project to SKELETAL MUSCLES. Anterior Horn Neurons,Neurons, Anterior Horn,Neurons, Ventral Horn,Ventral Horn Cells,Ventral Horn Neurons,Anterior Horn Cell,Anterior Horn Neuron,Cell, Anterior Horn,Cell, Ventral Horn,Cells, Anterior Horn,Cells, Ventral Horn,Neuron, Anterior Horn,Neuron, Ventral Horn,Ventral Horn Cell,Ventral Horn Neuron
D013116 Spinal Cord A cylindrical column of tissue that lies within the vertebral canal. It is composed of WHITE MATTER and GRAY MATTER. Coccygeal Cord,Conus Medullaris,Conus Terminalis,Lumbar Cord,Medulla Spinalis,Myelon,Sacral Cord,Thoracic Cord,Coccygeal Cords,Conus Medullari,Conus Terminali,Cord, Coccygeal,Cord, Lumbar,Cord, Sacral,Cord, Spinal,Cord, Thoracic,Cords, Coccygeal,Cords, Lumbar,Cords, Sacral,Cords, Spinal,Cords, Thoracic,Lumbar Cords,Medulla Spinali,Medullari, Conus,Medullaris, Conus,Myelons,Sacral Cords,Spinal Cords,Spinali, Medulla,Spinalis, Medulla,Terminali, Conus,Terminalis, Conus,Thoracic Cords
D013569 Synapses Specialized junctions at which a neuron communicates with a target cell. At classical synapses, a neuron's presynaptic terminal releases a chemical transmitter stored in synaptic vesicles which diffuses across a narrow synaptic cleft and activates receptors on the postsynaptic membrane of the target cell. The target may be a dendrite, cell body, or axon of another neuron, or a specialized region of a muscle or secretory cell. Neurons may also communicate via direct electrical coupling with ELECTRICAL SYNAPSES. Several other non-synaptic chemical or electric signal transmitting processes occur via extracellular mediated interactions. Synapse

Related Publications

W A Krivoy, and J R Couch, and J M Stewart
Antagonism of chlorpromazine by beta-melanocyte stimulating hormone (beta-MSH).
January 1962, Experientia,
W A Krivoy, and J R Couch, and J M Stewart
MSH: the melanocyte-stimulating hormone.
November 1954, A.M.A. archives of dermatology and syphilology,
W A Krivoy, and J R Couch, and J M Stewart
An effect of beta-melanocyte stimulating hormone (beta-MSH) on alpha-motoneurones of cat spinal cord.
December 1977, European journal of pharmacology,
W A Krivoy, and J R Couch, and J M Stewart
Natriuresis induced by alpha and beta melanocyte stimulating hormone (MSH) in rats.
March 1972, Endocrinology,
W A Krivoy, and J R Couch, and J M Stewart
Behavioral aspects of melanocyte-stimulating hormone (MSH).
January 1973, Progress in brain research,
W A Krivoy, and J R Couch, and J M Stewart
[Lipotropin (lipotropic hormone: LPH), melanocyte-stimulating hormone (MSH)].
August 2005, Nihon rinsho. Japanese journal of clinical medicine,
W A Krivoy, and J R Couch, and J M Stewart
[Lipotropin (LPH) and melanocyte-stimulating hormone (MSH)].
March 1995, Nihon rinsho. Japanese journal of clinical medicine,
W A Krivoy, and J R Couch, and J M Stewart
[Lipotropins (LPH) and melanocyte-stimulating hormone (MSH)].
December 1999, Nihon rinsho. Japanese journal of clinical medicine,
W A Krivoy, and J R Couch, and J M Stewart
On the antagonism of adrenaline by melanocyte stimulating hormone (MSH).
June 1965, Archives internationales de pharmacodynamie et de therapie,
W A Krivoy, and J R Couch, and J M Stewart
[Lipotropin (lipotropic hormone: LPH) and melanocyte-stimulating hormone (MSH)].
July 2010, Nihon rinsho. Japanese journal of clinical medicine,
Copied contents to your clipboard!