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Parasympathetic

Neuropeptide Y. Neuropeptide Y [82785 5-3] (NPY) (255) is a 36-amiao acid peptide that is a member of a peptide family including peptide YY (PYY) [81858-94-8, 106338-42-5] (256) and pancreatic polypeptide (PPY) [59763-91-6] (257). In the periphery, NPY is present in most sympathetic nerve fibers, particulady around blood vessels and also in noradrenergic perivascular and selected parasympathetic nerves (66). Neurons containing NPY-like immunoreactivity ate abundant in the central nervous system, particulady in limbic stmctures. Coexistence with somatostatin and NADPH-diaphorase, an enzyme associated with NO synthesis, is common in the cortex and striatum. [Pg.563]

General types of physiological functions attributed to quaternary ammonium compounds are curare action, muscarinic—nicotinic action, and ganglia blocking action. The active substance of curare is a quaternary that can produce muscular paralysis without affecting the central nervous system or the heart. Muscarinic action is the stimulation of smooth-muscle tissue. Nicotinic action is primary transient stimulation and secondary persistent depression of sympathetic and parasympathetic ganglia. [Pg.378]

The sympathetic or adrenergic nervous system operates in juxtaposition to the parasympathetic nervous system to maintain homeostasis in response to physical activity and physical or psychological stress. Sympathomimetic neurotransmission is generally mediated by norepinephrine [51-41 -2] (1), CgH NO, released from presynaptic storage granules upon stimulation. A second endogenous sympathomimetic agent, epinephrine [51-43-4] (2),... [Pg.215]

Dmgs that mimic or inhibit the actions of neurotransmitters released from parasympathetic or sympathetic nerves innervating the heart may also be used to treat supraventricular bradyarrhythmias, heart block, and supraventricular tachyarrhythmias. Those used in the treatment of arrhythmias may be found in Table 1. [Pg.120]

This makes choline an important nutritional substance. It is also of great physiological interest because one of its esters, acetylcholine [51-84-3] appears to be responsible for the mediation of parasympathetic nerve impulses and has been postulated to be essential to the transmission of all nerve impulses. Acetylcholine and other more stable compounds that simulate its action are pharmacologically important because of their powerful effect on the heart and on smooth muscle. Choline is used clinically in Hver disorders and as a constituent in animal feeds. [Pg.100]

Acetylcholine is a neurotransmitter at the neuromuscular junction in autonomic ganglia and at postgangHonic parasympathetic nerve endings (see Neuroregulators). In the CNS, the motor-neuron collaterals to the Renshaw cells are cholinergic (43). In the rat brain, acetylcholine occurs in high concentrations in the interpeduncular and caudate nuclei (44). The LD q (subcutaneous) of the chloride in rats is 250 mg/kg. [Pg.102]

Moreover organophosphoric acid esters have found application as insecticides (e.g. Parathion). Some derivatives are highly toxic to man (e.g. Sarin, Soman). The organophosphonates act as inhibitors of the enzyme cholinesterase by phosphorylating it. This enzyme is involved in the proper function of the parasympathetic nervous system. A concentration of 5 x 10 g/L in the air can already cause strong toxic effects to man. [Pg.16]

The simplification of the local anesthetic phaimacophore of cocaine to an aryl substituted ester of ethanolamine has been described previously. Atropine (S2) is a structurally closely related natural product whose main biologic action depends on inhibition of the parasympathetic nervous system. Among its many other actions, the compound exerts useful spasmolytic effects. [Pg.35]

Parasympathetic nervous system. That portion of the autonomic nervous system that utilizes acetylcholine as the neurotransmitter at the neuro-effector junctions. [Pg.453]

Acetylcholine (Ach) is an ester of acetic acid and choline with the chemical formula CH3COOCH2CH2N+ (CH3)3. ACh functions as a chemical transmitter in both the peripheral nervous system (PNS) and central nervous system (CNS) in a wide range of organisms, humans included. Neurotransmitter involved in behavioral state control, postural tone, cognition and memory, and autonomous parasympathetic (and preganglionic sympathetic) nervous system. [Pg.11]

The part of the vertebrate nervous system that regulates involuntary action, such as the intestines, heart and glands it is divided into the sympathetic nervous system and the parasympathetic nervous system. [Pg.242]

Although blood pressure control follows Ohm s law and seems to be simple, it underlies a complex circuit of interrelated systems. Hence, numerous physiologic systems that have pleiotropic effects and interact in complex fashion have been found to modulate blood pressure. Because of their number and complexity it is beyond the scope of the current account to cover all mechanisms and feedback circuits involved in blood pressure control. Rather, an overview of the clinically most relevant ones is presented. These systems include the heart, the blood vessels, the extracellular volume, the kidneys, the nervous system, a variety of humoral factors, and molecular events at the cellular level. They are intertwined to maintain adequate tissue perfusion and nutrition. Normal blood pressure control can be related to cardiac output and the total peripheral resistance. The stroke volume and the heart rate determine cardiac output. Each cycle of cardiac contraction propels a bolus of about 70 ml blood into the systemic arterial system. As one example of the interaction of these multiple systems, the stroke volume is dependent in part on intravascular volume regulated by the kidneys as well as on myocardial contractility. The latter is, in turn, a complex function involving sympathetic and parasympathetic control of heart rate intrinsic activity of the cardiac conduction system complex membrane transport and cellular events requiring influx of calcium, which lead to myocardial fibre shortening and relaxation and affects the humoral substances (e.g., catecholamines) in stimulation heart rate and myocardial fibre tension. [Pg.273]

Cholinergic neurotransmission ChEs terminate cholinergic transmission in the central nervous system (CNS), in NMJs and in the autonomic system (the parasympathetic system, somatic motor nerves and pre-ganglionic sympathetic nerves). A few sensory cells and the NMJ in nematodes also include ChEs. [Pg.357]

Peripheral mAChRs are known to mediate the well-documented actions of ACh at parasympathetically innervated effector tissues (organs) including heart, endocrine and exocrine glands, and smooth muscle tissues [2, 4]. The most prominent peripheral actions mediated by activation of these receptors are reduced heart rate and cardiac contractility, contraction of... [Pg.794]

Sympathetic, parasympathetic and sensory neurones, chromaffin, neuroblastoma and PC 12 cells (ganglionic nAChR, typically comprised of a3,a5,(32,(34 or al subunits)... [Pg.852]

ATP with acetylcholine and vasoactive intestinal peptide in some parasympathetic nerves... [Pg.1048]

In sympathetically innervated tissues, such as vas deferens or blood vessels, ATP produces fast responses mediated by P2X receptors followed by a slower component mediated by G protein-coupled a-adrenoceptors (Fig. 2) NPY usually acts as a pre-or postjunctional modulator of the release and/or action of NA and ATP. Similarly, for parasympathetic nerves supplying the urinary bladder, ATP provokes a fast, short-lasting twitch response via P2X receptors, whereas the slower component is mediated by G... [Pg.1048]

Peripheral Gl, vascular and bronchial smooth muscle, vascular endothelium, platelets Peripheral Smooth muscle of ileum, stomach fundus (rat), uterus, vasculature, endothelium Peripheral None identified Peripheral Post-ganglionic sympathetic neurons, sensory neurons Peripheral Cardiac muscle, post-ganglionic parasympathetic neurons (myenteric plexus), esophageal and vascular smooth muscle... [Pg.1122]

Parasympathetic Nervous System Parasympatholytics Parasympathomimetics Parathyroid Hormone Paraventricular Nucleus Parkin... [Pg.1499]

ORGANS OR STRUCTURES SYMPATHETIC (ADRENERGIC) EFFECTS TYPES OF SYMPATHETIC (ADRENERGIC) RECEPTOR PARASYMPATHETIC (CHOUNERGiq EFFECTS... [Pg.201]

Discuss important aspects of the parasympathetic nervous system. [Pg.221]

Giolinergic drugs mimic the activity of the parasympathetic nervous system (PNS). They also are called parasympathomimetic drugs. An understanding of the PNS is useful in understanding the cholinergic dni. ... [Pg.221]

The PNS has two neurohormones (neurotransmitters) acetylcholine (ACh) and acetylcholinesterase (ACliE). ACh is a neurotransmitter responsible for die transmission of nerve impulses to effector cells of die parasympathetic nervous system. ACh plays an important role in die transmission of nerve impulses at synapses and myoneural junctions. ACh is quickly... [Pg.221]

Myasthenia gravis is a disease tiiat involves rapid fatigue of skeletal muscles because of die lack of ACh released at die nerve endings of parasympathetic nerve fibers. Drugs used to treat this disorder include ambeno-nium (Mytelase) and pyridostigmine (Mestinon). [Pg.222]


See other pages where Parasympathetic is mentioned: [Pg.227]    [Pg.404]    [Pg.404]    [Pg.132]    [Pg.12]    [Pg.106]    [Pg.112]    [Pg.548]    [Pg.548]    [Pg.550]    [Pg.614]    [Pg.628]    [Pg.660]    [Pg.62]    [Pg.287]    [Pg.588]    [Pg.858]    [Pg.911]    [Pg.933]    [Pg.933]    [Pg.1272]    [Pg.199]    [Pg.200]    [Pg.221]    [Pg.229]    [Pg.460]   
See also in sourсe #XX -- [ Pg.244 ]

See also in sourсe #XX -- [ Pg.415 ]




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Acetylcholine parasympathetic effector sites

Acetylcholine parasympathetic transmitter

Acting on the Parasympathetic Nervous System

Affect the Parasympathetic Nervous System

Anatomy of the Autonomic Nervous System Sympathetic and Parasympathetic Divisions

Atropine as blocking agent in parasympathetic system

Autonomic nervous system parasympathetic branch

Autonomic nervous system parasympathetic division

Digestion, parasympathetic autonomic

Digestion, parasympathetic autonomic nervous system

Functional Aspects of the Sympathetic and Parasympathetic Divisions

Ganglion cells, parasympathetic

Gastrointestinal system sympathetic/parasympathetic

Heart parasympathetic innervation

Heart rate parasympathetic nervous system

Heart rate, control parasympathetic

Mean arterial pressure parasympathetic nervous system

Nerve gases parasympathetic action

Paralytic ileus parasympathetic, innervation of eye

Parasympathetic Coronary Control

Parasympathetic Organization

Parasympathetic Postganglionic Blocking Agents

Parasympathetic activity

Parasympathetic activity responses

Parasympathetic agents

Parasympathetic autonomic nervous system

Parasympathetic autonomic nervous system PANS)

Parasympathetic autonomic nervous system concepts

Parasympathetic cardiac ganglions

Parasympathetic depressants

Parasympathetic division

Parasympathetic ganglia

Parasympathetic nerve fibres

Parasympathetic nerves, heart rate

Parasympathetic nervous

Parasympathetic nervous drugs acting

Parasympathetic nervous stimulation

Parasympathetic nervous system

Parasympathetic nervous system activation

Parasympathetic nervous system activation responses

Parasympathetic nervous system cholinergic drug action

Parasympathetic nervous system heart rate affected

Parasympathetic nervous system pathways

Parasympathetic nervous system postganglionic fibers

Parasympathetic nervous system preganglionic neurons

Parasympathetic nervous system systemic effects

Parasympathetic nervous system, cardiac

Parasympathetic nervous system, cardiac innervation

Parasympathetic nervous system, defined

Parasympathetic neurons

Parasympathetic preganglionic motor

Parasympathetic receptor blocking agents

Parasympathetic reflexes

Parasympathetic stimulants

Parasympathetic stimulation

Parasympathetic synapses

Parasympathetic system

Pupil parasympathetic system

Rest, parasympathetic autonomic nervous

Rest, parasympathetic autonomic nervous system

Sympathetic/parasympathetic balance

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