カテゴリー 全て - side effects - metabolism

によって Qabas Al-Jobori 10か月前.

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MedChem of Antipsychotics

The focus is on the medicinal chemistry of antipsychotic drugs, particularly those resembling benzazepine. These drugs generally show higher affinity for serotonin receptors, though certain exceptions exist.

MedChem of Antipsychotics

MedChem of Antipsychotics


Long-acting injectable antipsychotics

Olanzapine Pamoate: -insoluble salt that dissolves slowly after IM inj, thus its PK are an absorption-rate rather than elimination-rate controlled process -long-acting inj versions of risperidone and aripip are available that employ formulation approaches for engineering extended release of drug
-Pro-drugs: hydroxyl containing antipsychotics can be esterified w/ saturated fatty acids, which upon IM injection depot in tissue and are slowly cleaved by esterase to release parent drug over time -aripip lauroxil uses a methylene oxygen spacer to join the C12 fatty acid to the parent drug
Drugs: -fluphenazine -haloperidol -paliperidol
Aryl Piperazine antipsychotics
Apiprazole

-potential for DDI w/ inhibitors/inducers -modest elevation in plasma lvls in presence of CYP3A4 inhibitor/CYP2D6 inhibitor -Plasma lvls dec in presence carbamazepine

-Aryl piperazine -> 5HT antagonists, D2 partial agonist --> risk of EPS/hyperprolactinemia LOW -Brex --> higher affinity for D2/5HT -Cariprazine is a D3 preferring compound (6x) -these drugs lack anticholinergic activity + SE -weight gain minimal with aripiprazole

Drugs: -Aripiprazole -Brexipiprazole -Cariprazine
-Resperidone is oxidized by CYP2D6 or CYP3A4 to paliperidone --> excreted unchanged through renal elimination -CYP3A4/CYP2D6 mediated N-dealkylation is also observed -Aldehyde oxidase (AO) is the major metabolic path for zipra
SAR
-all have higher affinity for 5HT (except lurasidone) -EPS/hyperprolactinemia reduced -lack anticholinergic activity + assoc. SE -weight gain w/ ziprasidone and lurasidone is minimal -risk for orthostatic hypoTN is greatest with risperidone/iloperidone -Lura was designed w/ selectivity a1 adrenergic r in mind and has more than 100x preference for D2/5HT

Lura was so happy she could zip her pants because she didn't gain any extra holiday weight


Lurasidone + Ziprasidone => minimal weight gain

Lura felt light and Airy when she could Zip her pants and realizing she didn't gain weight


Lurasidone, Ziprasidone, Aripiprazole => minimal weight gain

Quetiapine
-formation of the major quetiapine metabolite are catalyzed by CYP3A4 -norquetiapine is an active metabolite -1st pass metabolism is extensive
Loxapine
-7-hydroxyloxapine metabolite has higher D2 affinity than loxapine --> contributes more atypical antipsychotic profile -N-demethylation generates the antidepressant amoxapine -Amox has affinity for SERT/NET -Amox treats depression, psychotic depression, and depression accompanied by anxiety or agitation
Clozapine/Olanzapine metabolism
-CYP1A2 = major enzyme responsible for metabolism of these drugs + potential DDI should be considered -caffeine consumption = inc EPS in pts taking clozapine -cig smoking decreases both cloz/olanz serum lvls
SAR:
-higher affinity for 5HT (except quetiapine) -EPS/Hyperprolactinemia SE are substantially reduced relative to 1st gen (except loxapine) -weight gain w/ clozapine/olanzapine is a major challenge + these drugs carry highest risk of new onset diabetes -Lybalvi is a combo of olanzapine/samidorphan that has reduced weight gain relative to olanzapine alone -Clozapine carries the most SE risk (sedation/orthostatic hypoTN/anticholinergic effects) + dose-dep seizure risk and agranulocytosis

Treatment of tardive dyskinesias

Deutetrabenazine
-derivative of DHTBZ -six deuterium atoms function as bioisosteres of the hydrogen atom + slow the rate of metabolism -1st example of deuterated drug to receive FDA approval -protium version of drug is known as tetrabenazine, a drug used in the treatment of chorea associated with Huntington's disease -reduce dose w/ strong CYP2D6 inhibitors or poor 2D6 metabolizers
Valbenazine
-prodrug --> forms active metabolite DHTBZ via hydrolysis of the L-valine in valbenazine -Val/DHBTZ inhibit vesicular monoamine transporter --> CI w/ MAOIs -Val is also metabolized by CYP3A4 --> dose red advised if using strong CYP3A4 inhibitors and NOT recommended to use w/ strong inducers
Lumateperone
-potent 5-HT antagonist w/ 60x higher affinity for 5HT than D2 --> atypical antipsychotic profile -reduced risk for EPS/hyperprolactinemia relative to Halo -favorable safety w/ weight gain and metabolic function
Metabolism: -Halo --> CYP3A4 -HPTP metabolite leads to a neurotoxic metabolite HPP+ that may be implicated in severe/irreversible dyskinesias seen w/ halo therapy
SAR: -EPS/hyperprolactinemia are prominent SE w/ Haloperidol -Sedation, weight gain, orthostatic hypotension, anticholinergic SE are less severe w/ Halo vs. phenothiazine chlorpromazine
-tertiary amine attached to 4th carbon of butyrophenone skeleton is essential for antipsychotic activity -lengthening, shortening, branching of the n-propyl group --> dec antipsychotic act. -replacement of the ketone functional group w/ a 2nd 4-fluorophenyl group is tolerated + inc DOA

-trace roots to an early class of antihistamine compounds

Metabolism
-Oxidative N-dealkylation is a common meta pathway w/ many CNS drugs -least sterically hindered carbon attached to the nitrogen atom will be hydroxylated by CYP450 -N-dealkylated metabolite is an active metabolite -extensively meta by P450 in liver -major diff for thiothixene metabolism relative to the phenothiazines is lack of ring-hydroxylated products

Chlorpromazine vs. thiothixene

-drugs have equal or > affinity for D2 r vs. 5HT r --> sig EPS/hyperprolactinemia side effects -sedation, orthostatic hypoTN, anticholinergic side effects are more severe with chlorpromazine/thioridazine -piperazine-containing analogs have reduced affinity for H/M/a1A

Major Structural Classes of Antipsychotics

Benzisoxazole-like
Drugs: -risperidone -paliperidone -ziprasidone -iloperi -lurasi -apiprazole -brexipiprazole -cariprazine
Benzazepine-like
Drugs: -loxapine -clozapine -olanzapine -quetiapine -asenapine
Butyrophenone-like
Drugs: -Haloperidol -pimozide -lumateperone
Phenothiazine-like
Drugs: -Chlorpromazine -Fluphenazine -perphenazine -thioridazine -trifluoperazine -thiothixene

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