Population Pharmacokinetics of Cariprazine and its Major Metabolites.

BACKGROUND AND OBJECTIVES: Cariprazine, a dopamine D3-preferring D3/D2 receptor partial agonist, is approved for the treatment of adults with schizophrenia (1.5-6 mg/day) and manic/mixed (3-6 mg/day) episodes associated with bipolar I disorder. This population pharmacokinetic analysis describes the concentration-time profiles of cariprazine and its two major active metabolites, desmethyl-cariprazine (DCAR) and didesmethyl-cariprazine (DDCAR). Additionally, the potential impact of patient characteristics, creatinine clearance, and cytochrome P450 2D6 (CYP2D6) metabolizer status on the pharmacokinetics of cariprazine and its metabolites was evaluated. METHODS: Data from three phase 1 and ten phase 2/3 studies in adult patients with schizophrenia or bipolar mania were included. Nonlinear mixed-effects pharmacokinetic modeling was performed using the NONMEM software package. Compartmental modeling was performed sequentially with the cariprazine elimination rate used as the DCAR formation rate and likewise the elimination rate of DCAR used with a delay as the DDCAR formation rate. RESULTS: Cariprazine pharmacokinetics were described by a three-compartment model with zero-order input of the dose to a depot compartment followed by first-order absorption and first-order elimination. DCAR and DDCAR pharmacokinetics were described by two-compartment models with linear elimination. Statistically significant predictors of pharmacokinetic parameters included weight, sex, and race, though differences in exposures were not large enough to require an adjustment in dose. Creatinine clearance was not a statistically significant predictor of drug clearance, and a post hoc analysis found that CYP2D6 metabolizer status was not associated with changes in exposure levels for cariprazine, DCAR, or DDCAR. The median time to 90% of steady state was approximately 1 week for cariprazine and DCAR and 3 weeks for DDCAR. CONCLUSIONS: Population pharmacokinetic modeling provided a quantitative description of the concentration-time profile of cariprazine and its metabolites.

Relationship Between Plasma Concentrations and Clinical Effects of Cariprazine in Patients With Schizophrenia or Bipolar Mania.

Population pharmacokinetic/pharmacodynamic modeling (via NONMEM) was used to describe longitudinal exposure-response relationships for total cariprazine (sum of cariprazine and its major active metabolites) in 2,558 patients with schizophrenia or bipolar mania. Drug exposure metrics were explored for potential relationships with efficacy and safety end points. Total cariprazine exposures were significantly related to reductions in Positive and Negative Syndrome Scale (PANSS) or Young Mania Rating Scale (YMRS) total scores in schizophrenia or bipolar mania, respectively, via a maximum effect (Emax )-type relationship. Typical steady-state plasma concentrations after 3 and 4.5 mg/day were associated with 50% of maximum typical reductions in PANSS and YMRS total scores, respectively. Time-weighted cariprazine exposures had significant relationships with the probability of common adverse events (AEs). Dose increase was associated with increased efficacy but was also associated with an increase in AEs. Results of these pharmacokinetic/pharmacodynamic analyses support that the recommended dose range (1.5-6 mg/day for schizophrenia and 3-6 mg/day for bipolar mania) provides an appropriate benefit-risk balance between cariprazine efficacy and safety.

[Cariprazine, a new type - dopamine D3 receptor preferring - partial agonist atypical antipsychotic for the treatment of schizophrenia and the primary negative symptoms]. / Kariprazin, egy új típusú ­ dopamin D3 receptort preferáló ­ parciális agonista atípusos antipszichotikum a szkizofrénia és primer negatív tüneteinek kezelésére.

Dopamine D2 receptor partial agonists represent a new generation of atypical antipsychotics. Cariprazine, which has received centralized market authorization from the European Medicines Agency in 2017 for the treatment of adult patients with schizophrenia (including those with predominant negative symptoms of schizophrenia) differs from the other two partial agonist antipsychotics aripiprazole and brexpiprazole due to its unique features. Cariprazine is a dopamine D3 preferring D3/D2 partial agonist with very similar dopamine receptor subtype selectivity as dopamine. It has proven efficacy in the treatment of positive and negative symptoms of schizophrenia, as well as for relapse prevention. Further phase-3 clinical studies proved the efficacy of cariprazine in the acute treatment of manic or mixed episodes associated with bipolar I disorder, as well as in bipolar depression. For the adjunctive treatment of major depressive disorder, phase 3 studies are in progress.

Preferential binding to dopamine D3 over D2 receptors by cariprazine in patients with schizophrenia using PET with the D3/D2 receptor ligand [(11)C]-(+)-PHNO.

RATIONALE: Second-generation antipsychotics occupy dopamine D2 receptors and act as antagonists or partial agonists at these receptors. While these drugs alleviate positive symptoms in patients with schizophrenia, they are less effective for treating cognitive deficits and negative symptoms. Dopamine D3 receptors are highly expressed in areas of the brain thought to play a role in the regulation of motivation and reward-related behavior. Consequently, the dopamine D3 receptor has become a target for treating negative symptoms in combination with D2 antagonism to treat positive symptoms in patients with schizophrenia. OBJECTIVE: The purpose of this study was to determine the cariprazine receptor occupancies in brain for D2 and D3 receptors in patients with schizophrenia. METHODS: Using [(11)C]-(+)-PHNO as a radioligand, positron emission tomography (PET) scans were performed in eight patients at baseline and postdose on days 1, 4, and 15. Plasma and cerebrospinal fluid (CSF) samples were analyzed for cariprazine concentrations. RESULTS: A monotonic dose-occupancy relationship was observed for both receptor types. After 2 weeks of treatment, near complete (∼100 %) occupancies were observed for both receptors at a dose of 12 mg/day. At the lowest cariprazine dose (1 mg/day), mean D3 and D2 receptor occupancies were 76 and 45 %, respectively, suggesting selectivity for D3 over D2 receptors at low doses. An exposure-response analysis found a ∼3-fold difference in EC50 (D3 = 3.84 nM and D2 = 13.03 nM) in plasma after 2 weeks of dosing. CONCLUSION: This PET imaging study in patients with schizophrenia demonstrated that cariprazine is a D3-preferring dual D3/D2 receptor partial agonist.

Clinical pharmacology study of cariprazine (MP-214) in patients with schizophrenia (12-week treatment).

PURPOSE: Cariprazine is a potent dopamine D3-preferring D3/D2 receptor partial agonist in development for the treatment of schizophrenia, bipolar mania, and depression. Pharmacokinetics of cariprazine and the two clinically relevant metabolites (desmethyl- and didesmethyl-cariprazine) was evaluated in a clinical pharmacology study. METHODS: This was a multicenter, randomized, open-label, parallel-group, fixed-dose (3, 6, or 9 mg/day) study of 28-week duration (≤4-week observation, 12-week open-label treatment, and 12-week follow-up). Once-daily cariprazine was administered to 38 adult patients with schizophrenia. The pharmacokinetics of cariprazine, metabolites, and total active moieties (sum of cariprazine and two metabolites) was evaluated; efficacy and safety were also assessed. RESULTS: Steady state was reached within 1-2 weeks for cariprazine and desmethyl-cariprazine, 4 weeks for didesmethyl-cariprazine, and 3 weeks for total active moieties. Cariprazine and desmethyl-cariprazine levels decreased >90% within 1 week after the last dose, didesmethyl-cariprazine decreased ~50% at 1 week, and total active moieties decreased ~90% within 4 weeks. Terminal half-lives of cariprazine, desmethyl-cariprazine, and didesmethyl-cariprazine ranged from 31.6 to 68.4, 29.7 to 37.5, and 314 to 446 hours, respectively. Effective half-life (calculated from time to steady state) of total active moieties was ~1 week. Incidence of treatment-emergent adverse events was 97.4%; 15.8% of patients discontinued due to adverse events. No abnormal laboratory values or major differences from baseline in extrapyramidal symptoms were observed. CONCLUSION: Cariprazine and its active metabolites reached steady state within 4 weeks, and exposure was dose proportional over the range of 3-9 mg/day. Once-daily cariprazine was generally well tolerated in adult patients with schizophrenia.

Discovery of cariprazine (RGH-188): a novel antipsychotic acting on dopamine D3/D2 receptors.

Medicinal chemistry optimization of an impurity isolated during the scale-up synthesis of a pyridylsulfonamide type dopamine D(3)/D(2) compound (1) led to a series of new piperazine derivatives having affinity to both dopamine D(3) and D(2) receptors. Several members of this group showed excellent pharmacokinetic and pharmacodynamic properties as demonstrated by outstanding activities in different antipsychotic tests. The most promising representative, 2m (cariprazine) had good absorption, excellent brain penetration and advantageous safety profile. Based on its successful clinical development we are looking forward to the NDA filing of cariprazine in 2012.

Cariprazine (RGH-188), a potent D3/D2 dopamine receptor partial agonist, binds to dopamine D3 receptors in vivo and shows antipsychotic-like and procognitive effects in rodents.

We investigated the in vivo effects of orally administered cariprazine (RGH-188; trans-N-{4-[2-[4-(2,3-dichlorophenyl)-piperazin-1-yl]-ethyl]-cyclohexyl}-N',N'-dimethyl-urea), a D(3)/D(2) dopamine receptor partial agonist with ∼10-fold preference for the D(3) receptor. Oral bioavailability of cariprazine at a dose of 1mg/kg in rats was 52% with peak plasma concentrations of 91ng/mL. Cariprazine 10mg/kg had good blood-brain barrier penetration, with a brain/plasma AUC ratio of 7.6:1. In rats, cariprazine showed dose-dependent in vivo displacement of [(3)H](+)-PHNO, a dopamine D(3) receptor-preferring radiotracer, in the D(3) receptor-rich region of cerebellar lobules 9 and 10. Its potent inhibition of apomorphine-induced climbing in mice (ED(50)=0.27mg/kg) was sustained for 8h. Cariprazine blocked amphetamine-induced hyperactivity (ED(50)=0.12mg/kg) and conditioned avoidance response (CAR) (ED(50)=0.84mg/kg) in rats, and inhibited the locomotor-stimulating effects of the noncompetitive NMDA antagonists MK-801 (ED(50)=0.049mg/kg) and phencyclidine (ED(50)=0.09mg/kg) in mice and rats, respectively. It reduced novelty-induced motor activity of mice (ED(50)=0.11mg/kg) and rats (ED(50)=0.18mg/kg) with a maximal effect of 70% in both species. Cariprazine produced no catalepsy in rats at up to 100-fold dose of its CAR inhibitory ED(50) value. Cariprazine 0.02-0.08mg/kg significantly improved the learning performance of scopolamine-treated rats in a water-labyrinth learning paradigm. Though risperidone, olanzapine, and aripiprazole showed antipsychotic-like activity in many of these assays, they were less active against phencyclidine and more cataleptogenic than cariprazine, and had no significant effect in the learning task. The distinct in vivo profile of cariprazine may be due to its higher affinity and in vivo binding to D(3) receptors versus currently marketed typical and atypical antipsychotics.

Physico-chemical characterization of a novel group of dopamine D(3)/D(2) receptor ligands, potential atypical antipsychotic agents.

The fundamental physico-chemical properties such as ionization and lipophilicity of twelve alkyl-aryl-piperidine and aryl-piperazine derivatives have been determined. Compounds are members of a recently identified, new class of potent dopamine D(3)/D(2) receptor ligands as potential atypical antipsychotic agents and were used in the development of a promising drug candidate (RGH-188) being present currently in clinical phase II investigations. The ionization constant (pK(a)) and the partition coefficient in octanol/water (logP(oct)) and cyclohexane/water systems (logP(ch)) were measured by validated analytical methods. Based on the highly precise physico-chemical data the structure-property relationships (SPR) were studied. The effect of the polar and apolar heteroatoms as well as polar and apolar surface areas on the partition in the two solvent systems was investigated by linear regression and multivariate linear regression analyses. Brain/blood concentration ratios (BB values) as a function of time were determined by HPLC analyses on plasma and brain homogenates of Wistar rats. A linear relationship has been found between DeltalogP values (logP(oct)-logP(ch)) and experimental logBB values, verifying that physico-chemical data can predict pharmacokinetic behaviour.

Subnanomolar dopamine D3 receptor antagonism coupled to moderate D2 affinity results in favourable antipsychotic-like activity in rodent models: II. behavioural characterisation of RG-15.

RG-15 (trans-N-[4-[2-[4-(3-cyano-5-trifluoromethyl -phenyl) -piperazine -1 -yl] -ethyl] -cyclohexyl] -3 -pyridinesulfonic amide dihydro-chloride), is a highly selective dopamine D3/D2 receptor antagonist with subnanomolar affinity for the D3 receptor and nanomolar affinity for the D2 receptor. We found that RG-15 showed a good oral bioavailability (54%) and high brain levels (approx. 900 ng/g) in rats and demonstrated antipsychotic efficacy in amphetamine-induced hyperactivity and conditioned avoidance response tests in rats, yielding ED50 (median effective dose) values of 8.6 and 12 mg/kg orally, respectively. At six- to eightfold higher doses, RG-15 blocked spontaneous motor activity, while a 30 mg/kg dose of the compound caused an increase in the home-cage motility of rats. The drug did not produce catalepsy up to 160 mg/kg oral dose; moreover, it inhibited haloperidol-induced catalepsy in the range 15-60 mg/kg. RG-15 (10 mg/kg orally) restored the impaired learning performance of scopolamine- or diazepam-treated rats in a water-labyrinth paradigm. It is assumed that the motor activating, anticataleptic and cognitive-enhancing properties of RG-15 result from its potent D3 antagonism. In this regard, RG 15 clearly differs from other antipsychotics. Olanzapine, clozapine and amisulpride all showed efficacy against amphetamine-induced hyperactivity and on conditioned avoidance, but compared to RG-15, they proved to be more cataleptogenic and depressed or did not change the home-cage activity of animals. Olanzapine was also inactive in the learning paradigm. Our results suggest that subnanomolar dopamine D3 receptor antagonism coupled to moderate D2 affinity may result in an antipsychotic profile characterised by a lack of extrapyramidal side effects and secondary negative symptoms with simultaneous efficacy on positive and cognitive symptoms of schizophrenia.

Sensitive LC-MS/MS methods for the quantification of RGH-188 and its active metabolites, desmethyl- and didesmethyl-RGH-188 in human plasma and urine.

Selective and sensitive LC-MS/MS methods have been developed and validated for simultaneous determination of RGH-188, a novel atypical antipsychotic, and its two active metabolites, desmethyl- and didesmethyl-RGH-188 in human plasma and urine. Deuterated analytes, [2H6]-RGH-188, [2H3]-desmethyl-RGH-188 and [2H8]-didesmethyl-RGH-188 were used as internal standards (IS). The compounds were isolated from the alkalized biological matrix using liquid-liquid extraction (LLE) and the extracts were analysed by reversed-phase HPLC with MS/MS detection. The chromatographic run time was 5.0min per injection. The PE Sciex API 365 mass spectrometer was equipped with a TurboIonSpray interface and operated in positive-ion, multiple reaction monitoring (MRM) mode. The mass transitions monitored were m/z 427.3-->382.2, 413.2-->382.2, 399.2-->382.2, 433.3-->382.2, 416.2-->382.2 and 407.3-->390.2 for RGH-188, desmethyl-RGH-188, didesmethyl-RGH-188, [2H6]-RGH-188, [2H3]-desmethyl-RGH-188 and [2H8]-didesmethyl-RGH-188, respectively. The lower limit of quantification (LLOQ) was 0.05 and 0.1ng/ml for RGH-188 and its metabolites, respectively, using 1ml of plasma. LLOQ in 1ml of urine was 0.1ng/ml for all three analytes. The methods were validated for selectivity, linearity, accuracy and precision. The lower limit of quantification, dilution integrity, matrix effect, stability of the analytes in the biological matrix during short- and long-term storage and after three freeze-thaw cycles were also tested. The assays were simple, specific and robust enough to support clinical development of RGH-188.

Effects of RGH-237 [N-{4-[4-(3-aminocarbonyl-phenyl)-piperazin-1-yl]-butyl}-4-bromo-benzamide], an orally active, selective dopamine D(3) receptor partial agonist in animal models of cocaine abuse.

Dopamine D(3) receptor partial agonism has been suggested as a potential therapeutic intervention in cocaine addiction. RGH-237 [N-{4-[4-(3-aminocarbonyl-phenyl)-piperazin-1-yl]-butyl}-4-bromo-benzamide] was identified as a novel selective dopamine D(3) receptor partial agonist and used for testing this hypothesis in animal models. The compound showed nanomolar affinity to human (K(i) = 6.7 nM) and rat (K(i) = 1.6 nM) D(3) receptors with an intrinsic activity of approximately 50%. It possessed several hundredfold selectivity over the D(2) receptor. The molecule bound with moderate (100-250 nM) affinity to 5-hydroxytryptamine 1A (5-HT(1A)) and nonselectively labeled opiate receptors. RGH-237 proved to be practically inactive on more than 40 other targets, including monoaminergic, cholinergic, GABAergic, and glutamatergic receptors. In rats orally administered RGH-237 was well and rapidly absorbed yielding 41% oral bioavailability. At its pharmacologically active dose (10 mg/kg p.o.), the brain concentration of RGH-237 reached 110 ng/g. Its blood and brain levels were sustained for 3 h. RGH-237 at the oral dose of 10 mg/kg moderately but significantly inhibited the acquisition of cocaine-induced place preference, although by itself, it had no place-conditioning effect. The compound did not affect fixed ratio 1 cocaine self-administration. In a reinstatement paradigm of cocaine self-administration, the compound potently and dose-dependently blocked the cue-induced cocaine-seeking behavior of rats at 10 and 30 mg/kg oral doses. RGH-237 did not affect seeking activity for natural rewards, such as sucrose and water. It did not exert notable effect on spontaneous motor activity of rats. Our results demonstrate that selective D(3) partial agonists may be an effective therapeutic means in the treatment of cocaine abuse.