BIOMAT Database Logo BIOMAT Database Logo

Loss of beta-adrenoceptor binding sites in rat striatum following kainic acid lesions. 1979

S R Nahorski, and D R Howlett, and P Redgrave

Intrastriatal injection of kainic acid (5 nmoles) to rats led to severe destruction of nerve cell bodies throughout the caudate-putamen complex and an extensive proliferation of glial cells. Lesioned striata displayed a significant 23% loss of beta-adrenoceptor binding sites 21--24 days after injection of kainic acid. Further analysis of these changes revealed that this loss of sites was selectively within the beta 1 receptor population. Although these results do not rule out a partial glial cell localisation for beta-adrenoceptors, they do indicate that at least a proportion of beta 1 receptors are present on striatal perikarya.

UI MeSH Term Description Entries
D007545 Isoproterenol Isopropyl analog of EPINEPHRINE; beta-sympathomimetic that acts on the heart, bronchi, skeletal muscle, alimentary tract, etc. It is used mainly as bronchodilator and heart stimulant. Isoprenaline,Isopropylarterenol,4-(1-Hydroxy-2-((1-methylethyl)amino)ethyl)-1,2-benzenediol,Euspiran,Isadrin,Isadrine,Isopropyl Noradrenaline,Isopropylnoradrenaline,Isopropylnorepinephrine,Isoproterenol Hydrochloride,Isoproterenol Sulfate,Isuprel,Izadrin,Norisodrine,Novodrin,Hydrochloride, Isoproterenol,Noradrenaline, Isopropyl,Sulfate, Isoproterenol
D007608 Kainic Acid (2S-(2 alpha,3 beta,4 beta))-2-Carboxy-4-(1-methylethenyl)-3-pyrrolidineacetic acid. Ascaricide obtained from the red alga Digenea simplex. It is a potent excitatory amino acid agonist at some types of excitatory amino acid receptors and has been used to discriminate among receptor types. Like many excitatory amino acid agonists it can cause neurotoxicity and has been used experimentally for that purpose. Digenic Acid,Kainate,Acid, Digenic,Acid, Kainic
D008297 Male Males
D011759 Pyrrolidines Compounds also known as tetrahydropyridines with general molecular formula (CH2)4NH. Tetrahydropyridine,Tetrahydropyridines
D011941 Receptors, Adrenergic Cell-surface proteins that bind epinephrine and/or norepinephrine with high affinity and trigger intracellular changes. The two major classes of adrenergic receptors, alpha and beta, were originally discriminated based on their cellular actions but now are distinguished by their relative affinity for characteristic synthetic ligands. Adrenergic receptors may also be classified according to the subtypes of G-proteins with which they bind; this scheme does not respect the alpha-beta distinction. Adrenergic Receptors,Adrenoceptor,Adrenoceptors,Norepinephrine Receptor,Receptors, Epinephrine,Receptors, Norepinephrine,Adrenergic Receptor,Epinephrine Receptors,Norepinephrine Receptors,Receptor, Adrenergic,Receptor, Norepinephrine
D011943 Receptors, Adrenergic, beta One of two major pharmacologically defined classes of adrenergic receptors. The beta adrenergic receptors play an important role in regulating CARDIAC MUSCLE contraction, SMOOTH MUSCLE relaxation, and GLYCOGENOLYSIS. Adrenergic beta-Receptor,Adrenergic beta-Receptors,Receptors, beta-Adrenergic,beta Adrenergic Receptor,beta-Adrenergic Receptor,beta-Adrenergic Receptors,Receptor, Adrenergic, beta,Adrenergic Receptor, beta,Adrenergic beta Receptor,Adrenergic beta Receptors,Receptor, beta Adrenergic,Receptor, beta-Adrenergic,Receptors, beta Adrenergic,beta Adrenergic Receptors,beta-Receptor, Adrenergic,beta-Receptors, Adrenergic
D003342 Corpus Striatum Striped GRAY MATTER and WHITE MATTER consisting of the NEOSTRIATUM and paleostriatum (GLOBUS PALLIDUS). It is located in front of and lateral to the THALAMUS in each cerebral hemisphere. The gray substance is made up of the CAUDATE NUCLEUS and the lentiform nucleus (the latter consisting of the GLOBUS PALLIDUS and PUTAMEN). The WHITE MATTER is the INTERNAL CAPSULE. Lenticular Nucleus,Lentiform Nucleus,Lentiform Nuclei,Nucleus Lentiformis,Lentiformis, Nucleus,Nuclei, Lentiform,Nucleus, Lenticular,Nucleus, Lentiform,Striatum, Corpus
D004082 Dihydroalprenolol Hydrogenated alprenolol derivative where the extra hydrogens are often tritiated. This radiolabeled form of ALPRENOLOL, a beta-adrenergic blocker, is used to label the beta-adrenergic receptor for isolation and study. 1-((Methylethyl)amino)-3-(2-propylphenoxy)-2-propanol
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
D001369 Axons Nerve fibers that are capable of rapidly conducting impulses away from the neuron cell body. Axon

Related Publications

S R Nahorski, and D R Howlett, and P Redgrave
Kainic acid lesions dissociate [3H] spiperone and [3H]cis-flupenthixol binding sites in rat striatum.
May 1981, European journal of pharmacology,
S R Nahorski, and D R Howlett, and P Redgrave
Changes of [3H]colchicine binding and protein synthesis in the rat striatum following kainic acid lesions.
May 1978, Brain research,
S R Nahorski, and D R Howlett, and P Redgrave
Persistence of beta-adrenergic receptors in rat striatum following kainic acid administration.
December 1979, Brain research,
S R Nahorski, and D R Howlett, and P Redgrave
Circling behavior following unilateral kainic acid injections into rat striatum.
December 1981, European journal of pharmacology,
S R Nahorski, and D R Howlett, and P Redgrave
Solubilization of kainic acid binding sites from rat brain.
October 1987, Journal of neurochemistry,
S R Nahorski, and D R Howlett, and P Redgrave
Differential loss of neurochemical markers following quinolinic acid-induced lesions of rat striatum.
October 1991, Experimental neurology,
S R Nahorski, and D R Howlett, and P Redgrave
Effect of kainic acid lesions on muscarinic agonist receptor subtypes in rat striatum.
February 1981, Brain research,
S R Nahorski, and D R Howlett, and P Redgrave
Opioid-specific recognition sites of the mu- and the delta-type in rat striatum after lesions with kainic acid.
July 1984, Life sciences,
S R Nahorski, and D R Howlett, and P Redgrave
Changes in histamine in the rat striatum following local injection of kainic acid.
January 1981, Neuroscience,
S R Nahorski, and D R Howlett, and P Redgrave
Neovascularization in kainic acid-induced lesions of rat striatum. An immunohistochemical study with laminin.
November 1989, Brain research,
Copied contents to your clipboard!