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Chapter 9 Anticholinesterase Drugs & Cholinesterase Reactivators Cao Yongxiao 曹永孝 Department of Pharmacology 029-8265 5140; [email protected] http://pharmacology.xjtu.edu.cn 1 Anticholinesterase Drugs Cholinesterase (ChE) inhibitors comprise another group drugs mimicing ACh by inhibiting the hydrolysis of endogenous ACh. Cholinoceptor agonists bind to and activate cholinoceptors 2 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 Mode of action of Anticholinesterase drugs Anti-ChE agents produce Drugs act primarily where effects by inhibiting AChE, ACh is physiologically decreasing hydrolysis of ACh, and increasing [ACh]. released and are amplifiers ACh evoke an increased of endogenous ACh. responses. Their primary effects are at the active site of this enzyme. . 3 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 Basic Pharmacology of Anticholinesterase Drugs The action of ACh is terminated by destruction of AChE which is present in cholinergic synapses. Their pharmacodynamic properties are almost identical. The chief differences between members of the group are chemical and pharmacokinetics. 4 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 Chemistry The ChE inhibitors fall into three chemical groups: (1) simple alcohols bearing a quaternary ammonium group, eg, edrophoniun; (2) carbamic acid esters of alcohols bearing quaternary or tertiary ammonium groups; (3) organic derivatives of phosphoric acid. 5 (2) carbamic acid esters of alcohols bearing tertiary or quaternary ammonium groups (1) simple alcohol bearing a quaternary 6 Larger doses are required for oral administration than for injection. Absorption of the quaternary carbamates from the conjunctiva, skin and lungs is poor, since their charge renders them relatively insoluble in lipids. 7 Distribution Distribution into CNS is negligible. Physostigmine, in contract, is well absorbed from all sites and can be used topically in the eye. It is distributed into CNS and is more toxic than the more polar quaternary carbamates. The carbamates are relatively stable in aqueous solution but can be metabolized by ChE. The duration of effect is determined chiefly by the stability of the inhibitor-enzyme complex. 8 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 Organophosphate ChE inhibitors are well absorbed from the skin, lung, gut, and conjunctiva, making them dangerous to humans and highly effects as insecticides. They are relatively less stable than carbamates. Echothiophate is the most stable organophosphates. It can be made up in aqueous solution for ophthalmic use and retains activity for weeks. 西安交大医学院药理学系 曹永孝 9 [email protected]; 029-82655140 The dash line is the bond that is hydrolyzed in binding to the enzyme The shaded ester bond is the points of detoxification in mammals and birds 10 The thiophosphate insecticides are lipid soluble and rapidly absorbed. They must be activated in the body by conversion to the oxygen analogs 11 Malathion are rapidly metabolized to inactive products in birds and mammals but not in insects; they are safe. Parathion is not detoxified effectively in vertebrate; it is dangerous to man and not available for general public use. 12 Malathion is the least toxic organophosphates due to the presence of ester functions in its molecule. Insects have much lower esterases activity than the mammals. 13 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 The thiophosphate being quite lipid-soluble is rapidly The thiophosphate being quite lipid-soluble is rapidly absorbed and is activated in the body by conversion to the absorbed and is activated in the body by conversion to the oxygen analogy. oxygen analogy. Malathion are rapidly metabolized to inactive products in Malathion are rapidly metabolized to inactive products in birds and mammals but not in insects; these birds and mammals but not in insects; agents are considered safe enough. they are considered safe enough. Parathion is not detoxified effectively in vertebrate; it is Parathion is not detoxified effectively in vertebrate; it is considerably dangerous to humans and is not available for considerably dangerous to humans and is not available for general public use. general public use. 14 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 All thiophosphate-type (PS) AChE inhibitors need to be bioactivated by the cytochrome P-450 enzymes to the corresponding phosphate esters (PO) (i.e., the PS is not as electrophilic as PO to allow nucleophilic attack by the Ser-OH). Since insects appear to have more reactive oxidative enzymes 15 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 Phosphoramide-type AChE inhibitors are inactive. The selective toxicity is due to the differences in the biotransformations between insects and mammals 16 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 Pharmacodynamics Mechanism of Action First, ACh binds to the enzyme’s active site and is hydrolyzed, yielding free choline and the acetylated enzyme. Then, the covalent acetylenzyme bond is split. It takes about 150 ms. 17 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 AChE inhibitors bind to AChE active site and are hydrolyzed Covalent bond Ch Electrostatically Hydrogen bond Irreversible bond Ch Ch esters Edrophonium consisting Carbamate agents undergo a of quaternary alcohols two-step bind electrostatically and hydrolysis sequence. However, by hydrogen bonds to the the covalent bond of active site, preventing the carbamoylated access of ACh. The enzyme is more enzyme-inhibitor resistant complexto the second process. is short-lived. 18 Mechanism of Action of AChE Inhibitors Organo-phosphates also active site and are hydrolyzed AChE inhibitors bind to AChE undergo initial binding and hydrolysis by the Covalent bond Electrostatically enzyme, resulting in a Ch Ch Hydrogen bond phosphorylated active site. The covalent phosphorusenzyme bond is extremely stable and hydrolyzed in a very slow rate. Irreversible bond Ch 19 Mechanism of Action of AChE Inhibitors After the initial binding-hydrolysis step, the phosphorylated enzyme complex may undergo a process called aging. This process involves the breaking of one of the oxygen-phosphorus bonds of the inhibitor and further strengthens the phosphorus enzyme bond. 20 Organ System Effects Central Nervous System— In low concentrations, the lipidsoluble cholinesterase inhibitors cause diffuse activation on the electroencephalogram and a subjective alerting response. In higher concentrations, they cause generalized convulsions, which may be followed by coma and respiratory arrest. 21 Eye, Respiratory Tract, Gastrointestinal Tract, Urinary Tract— The effects of the cholinesterase inhibitors on these organ system, all of which are well innervated by the parasympathetic nervous system, are quite similar to the effects of the direct-acting cholinomimetics. 22 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 Cardiovascular System The ChE inhibitors can increase activation in ganglia supplying the heart. In the heart, the effects on the parasympathetic predominate. Thus, ChE inhibitors mimic the effects of vagal nerve activation. Negative chronotropic, dromotropic, and inotropic effects are produced, and cardiac output falls. 西安交大医学院药理学系 曹永孝 23 [email protected]; 029-82655140 Neuromuscular Junction— At low concentrations, the ChE inhibitors moderately prolong and intensify the action of ACh, increase strength of contraction. At higher concentration, the accumulation of ACh may result in fibrillation of muscle fibers. Neostigmine, a quaternary carbamate cholinesterase inhibitors, agonize N2 receptor. This contributes to the effectiveness at therapy for myasthenia. 24 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 Clinical Uses A. The Eye Glaucoma is with increasing intraocular pressure. Cholinesterase inhibitors reduce intraocular pressure by increasing ACh concentration, contracting the ciliary body and facilitating outflow of aqueous humor. 西安交大医学院药理学系 曹永孝 25 [email protected]; 029-82655140 Gastrointestinal and Urinary Tracts Postoperative ileus and congenital megacolon involve depression of smooth muscle activity without obstruction. Urinary retention may occur postoperative or postpartum or secondary to spinal cord injury. Of the cholineaterase inhibitions, neostigmine is the most widely used for these applications. 西安交大医学院药理学系 曹永孝 26 [email protected]; 029-82655140 Myasthenia gravis is a disease affecting skeletal muscle neuromuscular junction. Frequent findings are ptosis, difficulty in speaking and swallowing, and extremity weakness. Even respiratory muscles. An autoimmune process produces antibodies that decrease the number of N2 receptors. 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 27 Myasthenia gravis is a disease affecting skeletal muscle neuromuscular junction. ChE inhibitors can increase ACh concentration, excite N2 receptors, which strengthen contraction. Patients are also treated with immunosuppressant drugs and some with thymectomy. 28 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 Heart The short-acting cholinesterase inhibitor edrophonium had been used to treat supraventricular tachycardia. 29 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 Antimuscarinic Drug in Toxication Atropine intoxication is potentially lethal in children and may cause prolonged severe behavioral disturbances in adults. The tricyclicantidepressants in overdosage, also cause severe muscarinic blockade. Cholinesterase inhibitors can antagonize the blockage of M receptors (atropine overdosage). 30 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 CNS: Alzheimer’s disease Tacrine is a drug with anticholinesterase and other cholinomimetic action that has been used for the treatment Alzheimer’s disease. Donepezil, galantamine, and rivastigmine are more selective AChE inhibitors that appear to have the same modest clinical benefic as tacrine in treatment of cognitive dysfunction in Alzheimer’s patient. Donepezil may be given once daily because of its long half-life. 31 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 Toxicity of Cholinesterase Inhibitors The acute toxicity: The initial signs are those of M symptoms: miosis, salivation, sweating, vomiting, diarrhea, and bronchial constriction. CNS involvement usually follow rapidly, accompanied by peripheral N effects, especially depolarizing N2 blockade. Chronic exposure to organophosphate ChE inhibitor cause neuropathy with demyelination of axons 32 ChE Reactivators Cholinesterase reactivation, capable of regenerating active enzyme from the organophosphosphorus-cholinesterase complex, is available to treat organophosphorus poisoning. These oxime agents include pralidoxime (PAM), diacteylmonoxime (DAM), and others. 33 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 Mode and Use of Action of the Cholinesterase Reactivators The oxime group (NOH) has a very high affinity for the phosphorus atom, and are able to hydrolyze the phosphorylated enzyme. Pralidoxime is the most effective in regenerating ChE. Because of its positive charge, it does not enter CNS and is ineffective in CNS poisoning. Diacetylmonoxime can cross the blood brain barrier and can regenerate cholinesterase in CNS. 34 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 PAM reverses the effects of the organophosphate anticholinesterase agents. 1. PAM combines with and splits off the phosphorus from the ester site on cholinesterases in such a way that the enzyme is restored. 2.With reactivation of the enzyme, the effects of ACh begin to disappear. 3. The treatment must be within hours, because the phosphorylated enzyme slowly changes to a form that cannot be reversed. 35 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 PAM and atropine have synergism in treating organophosphate ChE inhibitor poisoning . Organophosphate ChE inhibitors result in: M effects PAM Atropine + N effects + - CNS effects + + 36 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140 glad to share my knowledge with you, and want you to become a master of the subject, pharmacology 37 西安交大医学院药理学系 曹永孝 [email protected]; 029-82655140