pridopidine and Huntington-Disease

Despite advances in understanding the pathophysiology of Huntington's disease (HD), there are currently no effective pharmacological agents available to treat core symptoms or to stop or prevent the progression of this hereditary neurodegenerative disorder. Pridopidine, a novel small molecule compound, has demonstrated potential for both symptomatic treatment and disease modifying effects in HD. While pridopidine failed to achieve its primary efficacy outcomes (Modified motor score) in two trials (MermaiHD and HART) there were consistent effects on secondary outcomes (TMS). In the most recent study (PrideHD) pridiopidine did not differ from placebo on TMS, possibly due to a large enduring placebo effect.This review describes the process, based on in vivo systems response profiling, by which pridopidine was discovered and discusses its pharmacological profile, aiming to provide a model for the system-level effects, and a rationale for the use of pridopidine in patients affected by HD. Considering the effects on brain neurochemistry, gene expression and behaviour in vivo, pridopidine displays a unique effect profile. A hallmark feature in the behavioural pharmacology of pridopidine is its state-dependent inhibition or activation of dopamine-dependent psychomotor functions. Such effects are paralleled by strengthening of synaptic connectivity in cortico-striatal pathways suggesting pridopidine has potential to modify phenotypic expression as well as progression of HD. The preclinical pharmacological profile is discussed with respect to the clinical results for pridopidine, and proposals are made for further investigation, including preclinical and clinical studies addressing disease progression and effects at different stages of HD.

Topics: Animals; Corpus Striatum; Dopamine; Gene Expression; Humans; Huntington Disease; Motor Activity; Piperidines

The aim of this review is to overview the pharmacological features of neuroleptics experienced in the treatment of Huntington's disease (HD) symptoms. Despite a large number of case reports, randomized controlled trials (RCT) and drug comparison studies are lacking. Areas covered: After evaluating current guidelines and clinical unmet needs we searched PubMed for the term 'Huntington's disease' cross referenced with the terms 'Antipsychotic drugs' 'Neuroleptic drugs' and single drug specific names. Expert commentary: In clinical practice antipsychotics represent the first choice in the management of chorea in the presence of psychiatric symptoms, when poor compliance is suspected or when there is an increased risk of adverse events due to tetrabenazine. Antipsychotics are considered valid strategies, with the second generation preferred to reduce extrapyramidal adverse events, however they may cause more metabolic side effects. In the future 'dopamine stabilizers', such as pridopidine, could replace antipsychotics modulating dopamine transmission.

Topics: Antipsychotic Agents; Humans; Huntington Disease; Piperidines; Tetrabenazine

Huntington's disease is a rare dominantly-inherited neurodegenerative disease with motor, cognitive and behavioral manifestations. It results from an expanded unstable trinucleotide repeat in the coding region of the huntingtin gene. Treatment is symptomatic, but a poor evidence baseguides selection of therapeutic agents. Non-choreic derangements in voluntary movement contribute to overall motor disability and are poorly addressed by current therapies. Pridopidine is a novel agent in the dopidine class believed to have 'state dependent' effects at dopamine receptors, thus show promise in the treatment of these disorders of voluntary movement.. This review discusses the pharmacokinetics and pharmacodynamics of pridopidine and reviews clinical trials supporting development of the drug for HD. This information was culled from literature searches for dopidines, pridopidine, and HD experimental therapeutics in PubMed and at http://www.clinicaltrials.org .. There is a compelling need to discover new treatments for motor disability in HD, particularly for non-choreic motor symptoms. While pridopidine failed to achieve its primary efficacy outcomes in 2 large trials, reproducible effects on secondary motor outcomes have fueled an ongoing trial studying higher doses and more focused clinical endpoints. This and phase III trials will define define the utility of pridopidine for HD.

Topics: Animals; Dopamine Agents; Humans; Huntington Disease; Piperidines

Open-HART was an open-label extension of HART, a randomized, double-blind, placebo-controlled study of pridopidine in Huntington disease (HD). Previously, we reported safety and exploratory efficacy data after 36 months of treatment with pridopidine 45 mg twice daily. In the interim, emerging data suggests pridopidine may have neuroprotective effects mediated by sigma-1 receptor agonism.. To report additional safety and exploratory efficacy data for continued open-label use of 45 mg BID pridopidine at 48 and 60 months.. Patients in Open-HART were followed up to or greater than 60 months. Adverse events, concomitant medications, vital signs, laboratory values, and ECG data were monitored. Rates of decline in total functional capacity (TFC) and total motor score (TMS) over 60 months were evaluated in an exploratory analysis and compared between Open-HART and placebo recipients from the 2CARE trial. To account for missing data, sensitivity analyses were performed.. Of the original Open-HART baseline cohort (N = 118), 40 remained in the study at 48 months and 33 at 60 months. Pridopidine remained safe and well tolerated over the 60-month interval. TFC and TMS at 48 and 60 months remained stable, showing less decline at these timepoints compared to historical placebo controls from the 2CARE trial. TFC differences at 48 and 60 months observed remained nominally significant after sensitivity analysis.. The 45 mg BID pridopidine dosage remained safe and tolerable over 60 months. Exploratory analyses show TFC and TMS stability at 48 and 60 months, in contrast to placebo historical controls from the 2CARE trial. Results are consistent with data reported from the recent Phase 2 PRIDE-HD trial showing less functional decline in the pridopidine 45 mg BID treated group at 52 weeks.

Topics: Adult; Aged; Double-Blind Method; Female; Follow-Up Studies; Humans; Huntington Disease; Male; Middle Aged; Neuroprotective Agents; Outcome Assessment, Health Care; Piperidines; Receptors, sigma; Sigma-1 Receptor

No pharmacological treatment has been demonstrated to provide a functional benefit for persons with Huntington's disease (HD). Pridopidine is a sigma-1-receptor agonist shown to have beneficial effects in preclinical models of HD.. To further explore the effect of pridopidine on Total Functional Capacity (TFC) in the recent double-blind, placebo-controlled PRIDE-HD study.. We performed post-hoc analyses to evaluate the effect of pridopidine on TFC at 26 and 52 weeks. Participants were stratified according to baseline TFC score and analyzed using repeated measures (MMRM) and multiple imputation assuming missing not-at-random (MNAR) and worst-case scenarios.. The pridopidine 45 mg bid dosage demonstrated a beneficial effect on TFC for the entire population at week 52 of 0.87 (nominal p = 0.0032). The effect was more pronounced for early HD participants (HD1/HD2, TFC = 7-13), with a change from placebo of 1.16 (nominal p = 0.0003). This effect remained nominally significant using multiple imputation with missing not at random assumption as a sensitivity analysis. Responder analyses showed pridopidine 45 mg bid reduced the probability of TFC decline in early HD patients at Week 52 (nominal p = 0.02).. Pridopidine 45 mg bid results in a nominally significant reduction in TFC decline at 52 weeks compared to placebo, particularly in patients with early-stage HD.

Topics: Activities of Daily Living; Adult; Female; Functional Status; Humans; Huntington Disease; Male; Middle Aged; Piperidines; Receptors, sigma; Severity of Illness Index; Sigma-1 Receptor

Previous trials have shown that pridopidine might reduce motor impairment in patients with Huntington's disease. The aim of this study was to ascertain whether higher doses of pridopidine than previously tested reduce motor symptoms in a dose-dependent manner while maintaining acceptable safety and tolerability.. PRIDE-HD was a randomised, placebo-controlled, phase 2, dose-ranging study in adults (aged ≥21 years) with Huntington's disease at outpatient clinics in 53 sites across 12 countries (Australia, Austria, Canada, Denmark, France, Germany, Italy, Poland, Russia, the Netherlands, the UK, and the USA). Eligible patients had clinical onset after age 18 years, 36 or more cytosine-adenine-guanine repeats in the huntingtin gene, motor symptoms (Unified Huntington's Disease Rating Scale total motor score [UHDRS-TMS] ≥25 points), and reduced independence (UHDRS independence score ≤90%). Patients were randomly assigned (1:1:1:1:1) with centralised interactive-response technology to receive one of four doses of pridopidine (45, 67·5, 90, or 112·5 mg) or placebo orally twice a day for 52 weeks. Randomisation was stratified within centres by neuroleptic drug use. The primary efficacy endpoint was change in the UHDRS-TMS from baseline to 26 weeks, which was assessed in all randomised patients who received at least one dose of study drug and had at least one post-baseline efficacy assessment (full analysis set). Participants and investigators were masked to treatment assignment. This trial is registered with EudraCT (2013-001888-23) and ClinicalTrials.gov (NCT02006472).. Between Feb 13, 2014, and July 5, 2016, 408 patients were enrolled and randomly assigned to receive placebo (n=82) or pridopidine 45 mg (n=81), 67·5 mg (n=82), 90 mg (n=81), or 112·5 mg (n=82) twice daily for 26 weeks. The full analysis set included 397 patients (81 in the placebo group, 75 in the 45 mg group, 79 in the 67·5 mg group, 81 in the 90 mg group, and 81 in the 112·5 mg group). Pridopidine did not significantly change the UHDRS-TMS at 26 weeks compared with placebo at any dose. The most frequent adverse events across all groups were diarrhoea, vomiting, nasopharyngitis, falls, headache, insomnia, and anxiety. The most common treatment-related adverse events were insomnia, diarrhoea, nausea, and dizziness. Serious adverse events occurred in the pridopidine groups only and were most frequently falls (n=5), suicide attempt (n=4), suicidal ideation (n=3), head injury (n=3), and aspiration pneumonia (n=3). No new safety or tolerability concerns emerged in this study. One death in the pridopidine 112·5 mg group due to aspiration pneumonia was considered to be possibly related to the study drug.. Pridopidine did not improve the UHDRS-TMS at week 26 compared with placebo and, thus, the results of secondary or tertiary analyses in previous trials were not replicated. A potentially strong placebo effect needs to be ruled out in future studies.. Teva Pharmaceutical Industries.

Topics: Adult; Dose-Response Relationship, Drug; Double-Blind Method; Female; Humans; Huntington Disease; Male; Middle Aged; Piperidines; Severity of Illness Index; Treatment Outcome

Open-HART is an open-label extension of HART, a randomized, placebo-controlled, dose-ranging, parallel-group study.. To evaluate safety and exploratory efficacy of open-label pridopidine over 36 months in subjects with Huntington's disease (HD).. Open-HART subjects were treated with pridopidine 45 mg twice daily (BID). After initial evaluation by telephone (Week 1) and in person (Month 1), in-person visits occurred every 3 months, alternating between safety and clinical visits (safety plus Unified Huntington's Disease Rating Scale [UHDRS] assessment). The UHDRS was performed for pre-specified analysis as a secondary outcome measure. Adverse events (AEs), laboratory values, and electrocardiography were monitored throughout.. Most subjects (89%) reported at least one AE, with 30% experiencing treatment-related AEs. The most common AEs during the first year were falls (12.7%), anxiety (9.3%), insomnia (8.5%), irritability (6.8%), and depression (5.9%). Ninety-nine percent of subjects took concomitant medications. Two seizures were reported as AEs. No arrhythmias or suicide attempts were reported. Five deaths occurred, all considered treatment unrelated. Secondary exploratory analyses of subjects on pridopidine demonstrated motor deterioration (as measured by the UHDRS total motor score) consistent with HD's natural history, as shown in large observational studies. A post-hoc, exploratory analysis of TFC performance compared to placebo groups from other long-term HD studies demonstrated no significant effect for pridopidine on TFC progression after correction for multiple comparisons.. Pridopidine 45 mg BID was generally safe and tolerable in HD subjects over 36 months. TMS declined in a manner consistent with the known natural history of HD.

Topics: Adult; Canada; Cohort Studies; Dopamine Agents; Dose-Response Relationship, Drug; Female; Humans; Huntington Disease; Male; Middle Aged; Piperidines; Severity of Illness Index; Time Factors; Treatment Outcome; United States

Pridopidine, a new oral drug for treatment of patients with motor symptoms associated with Huntington's Disease (HD) is currently under development. In steady-state conditions, pridopidine elimination is mediated primarily through renal excretion. This study evaluated single dose and steady-state pharmacokinetics (PK) of a daily dose of pridopidine in subjects with mild and moderate renal impairment and matched healthy subjects.. Subjects with mild renal impairment (n = 12), moderate impairment (n = 12), or their matched healthy controls (n = 25) participated in this study. Subjects received a single dose of pridopidine (45 mg) on day 1 and a multiple dose cycle of 45 mg once daily on days 5-18. Blood and urine samples were collected on days 1 and 18 for PK analysis.. Mild renal impairment did not affect the PK of pridopidine whilst an increase in exposure was seen in subjects with moderate renal impairment. Subjects with moderate impairment showed reduced plasma clearance (by 44%) and had 68% higher AUC (90% CI 1.22, 2.30) and 26% higher Cmax (90% CI 1.02, 1.56) values than those with normal renal function at steady-state. Pridopidine was safe and well tolerated in healthy subjects and in subjects with mild and moderate renal impairment.. Mild renal impairment has no impact on exposure to pridopidine while moderately impaired renal function resulted in higher pridopidine concentrations.

Topics: Adolescent; Adult; Aged; Cytochrome P-450 CYP2D6; Dose-Response Relationship, Drug; Female; Germany; Humans; Huntington Disease; Kidney Diseases; Kidney Function Tests; Male; Middle Aged; Piperidines; Severity of Illness Index; Young Adult

To assess the 1-year safety profile of the dopaminergic stabilizer pridopidine in patients with Huntington disease.. Patients received pridopidine 45 mg/day for 4 weeks then pridopidine 90 mg/day for 22 weeks in this 6-month open-label extension (OLE) of the 6-month MermaiHD randomized controlled trial (RCT). Any adverse events (AEs) were recorded. Patients were categorized by their RCT treatment group (placebo, pridopidine 45 mg/day, pridopidine 90 mg/day).. Of the 386 patients who completed the RCT, 353 entered the OLE and 305 (86.4%) completed. In 1 year, similar percentages of patients from each group reported ≥1 AE (placebo, 79.6% [n = 90/113]; 45 mg/day, 80.8% [n = 101/125]; 90 mg/day, 82.6% [n = 95/115]) and ≥1 serious AE (8.0% [n = 9/113], 12.8% [n = 16/125], and 8.7% [n = 10/115], respectively). The AE profile across both studies was similar; falls and worsening of chorea were most commonly reported. During the OLE, more patients previously receiving pridopidine reported ≥1 AE (67.9% [n = 163/240]) than those who had received placebo (56.6% [n = 64/113]). Early in the RCT, small increases in heart rate were reported in patients receiving pridopidine. During 1 year, no clinically meaningful changes in laboratory parameters or EKG-related safety concerns were identified.. Pridopidine (≤90 mg/day) has an acceptable safety profile and is well-tolerated for 1 year.. This study provides Class IV evidence that pridopidine (≤90 mg/day) is generally safe and well-tolerated in patients with Huntington disease for up to 1 year.

Topics: Adult; Depression; Dizziness; Female; Humans; Huntington Disease; Male; Middle Aged; Piperidines; Time Factors; Treatment Outcome

We examined the effects of 3 dosages of pridopidine, a dopamine-stabilizing compound, on motor function and other features of Huntington's disease, with additional evaluation of its safety and tolerability. This was a randomized, double-blind, placebo-controlled trial in outpatient neurology clinics at 27 sites in the United States and Canada. Two hundred twenty-seven subjects enrolled from October 24, 2009, to May 10, 2010. The intervention was pridopidine, either 20 (n=56), 45 (n=55), or 90 (n=58) mg daily for 12 weeks or matching placebo (n=58). The primary outcome measure was the change from baseline to week 12 in the Modified Motor Score, a subset of the Unified Huntington's Disease Rating Scale Total Motor Score. Measures of safety and tolerability included adverse events and trial completion on the assigned dosage. After 12 weeks, the treatment effect (relative to placebo, where negative values indicate improvement) of pridopidine 90 mg/day on the Modified Motor Score was -1.2 points (95% confidence interval [CI], -2.5 to 0.1 points; P = .08). The effect on the Total Motor Score was -2.8 points (95% CI, -5.4 to -0.1 points; nominal P = .04). No significant effects were seen in secondary outcome measures with any of the active dosages. Pridopidine was generally well tolerated. Although the primary analysis did not demonstrate a statistically significant treatment effect, the overall results suggest that pridopidine may improve motor function in Huntington's disease. The 90 mg/day dosage appears worthy of further study. Pridopidine was well tolerated.

Topics: Adult; Behavior; Cognition; Data Interpretation, Statistical; Dopamine Agents; Dose-Response Relationship, Drug; Double-Blind Method; Female; Humans; Huntington Disease; Male; Movement; Piperidines; Trail Making Test; Treatment Outcome

Huntington's disease is a progressive neurodegenerative disorder, characterised by motor, cognitive, and behavioural deficits. Pridopidine belongs to a new class of compounds known as dopaminergic stabilisers, and results from a small phase 2 study in patients with Huntington's disease suggested that this drug might improve voluntary motor function. We aimed to assess further the effects of pridopidine in patients with Huntington's disease.. We undertook a 6 month, randomised, double-blind, placebo-controlled trial to assess the efficacy of pridopidine in the treatment of motor deficits in patients with Huntington's disease. Our primary endpoint was change in the modified motor score (mMS; derived from the unified Huntington's disease rating scale) at 26 weeks. We recruited patients with Huntington's disease from 32 European centres; patients were aged 30 years or older and had an mMS of 10 points or greater at baseline. Patients were randomly assigned (1:1:1) to receive placebo, 45 mg per day pridopidine, or 90 mg per day pridopidine by use of centralised computer-generated codes. Patients and investigators were masked to treatment assignment. We also assessed the safety and tolerability profile of pridopidine. For our primary analysis, all patients were eligible for inclusion in our full analysis set, in which we used the last observation carried forward method for missing values. We used an analysis of covariance model and the Bonferroni method to adjust for multiple comparisons. We used a prespecified per-protocol population as our sensitivity analysis. The α level was 0·025 for our primary analysis and 0·05 overall. This trial is registered with ClinicalTrials.gov, number NCT00665223.. At 26 weeks, in our full analysis set the difference in mean mMS was -0·99 points (97·5% CI -2·08 to 0·10, p=0·042) in patients who received 90 mg per day pridopidine (n=145) versus those who received placebo (n=144), and -0·36 points (-1·44 to 0·72, p=0·456) in those who received 45 mg per day pridopidine (n=148) versus those who received placebo. At the 90 mg per day dose, in our per-protocol population (n=114), the reduction in the mMS was of -1·29 points (-2·47 to -0·12; p=0·014) compared with placebo (n=120). We did not identify any changes in non-motor endpoints at either dose. Pridopidine was well tolerated and had an adverse event profile similar to that of placebo.. This study did not provide evidence of efficacy as measured by the mMS, but a potential effect of pridopidine on the motor phenotype of Huntington's disease merits further investigation. Pridopidine up to 90 mg per day was well tolerated in patients with Huntington's disease.. NeuroSearch A/S.

Topics: Adult; Aged; Double-Blind Method; Female; Humans; Huntington Disease; Male; Middle Aged; Motor Activity; Piperidines; Treatment Outcome

Huntington disease (HD) is a neurodegenerative disorder caused by polyglutamine-encoding CAG repeat expansion in the huntingtin (HTT) gene. HTT is involved in the axonal transport of vesicles containing brain-derived neurotrophic factor (BDNF). In HD, diminished BDNF transport leads to reduced BDNF delivery to the striatum, contributing to striatal and cortical neuronal death. Pridopidine is a selective and potent sigma-1 receptor (S1R) agonist currently in clinical development for HD. The S1R is located at the endoplasmic reticulum (ER)-mitochondria interface, where it regulates key cellular pathways commonly impaired in neurodegenerative diseases. We used a microfluidic device that reconstitutes the corticostriatal network, allowing the investigation of presynaptic dynamics, synaptic morphology and transmission, and postsynaptic signaling. Culturing primary neurons from the HD mouse model Hdh

Topics: Animals; Brain; Brain-Derived Neurotrophic Factor; Disease Models, Animal; Glutamates; Homeostasis; Huntingtin Protein; Huntington Disease; Lab-On-A-Chip Devices; Mice; Neuroprotective Agents; Piperidines; Synapses

Using [. S1R occupancy as function of pridopidine dose (or plasma concentration) in HVs could be described by a three-parameter Hill equation with a Hill coefficient larger than one. A high degree of S1R occupancy (87% to 91%) was found throughout the brain at pridopidine doses ranging from 22.5 to 90 mg. S1R occupancy was 43% at 1 mg pridopidine. In contrast, at 90 mg pridopidine, the D2/D3R occupancy was only minimal (~ 3%).. Our PET findings indicate that at clinically relevant single dose of 90 mg, pridopidine acts as a selective S1R ligand showing near to complete S1R occupancy with negligible occupancy of the D2/D3R. The dose S1R occupancy relationship suggests cooperative binding of pridopidine to the S1R. Our findings provide significant clarification about pridopidine's mechanism of action and support further use of the 45-mg twice-daily dose to achieve full and selective targeting of the S1R in future clinical trials of neurodegenerative disorders. Clinical Trials.gov Identifier: NCT03019289 January 12, 2017; EUDRA-CT-Nr. 2016-001757-41.

Topics: Benzamides; Benzofurans; Brain; Dopamine; Healthy Volunteers; Humans; Huntington Disease; Male; Piperidines; Positron-Emission Tomography; Receptors, Dopamine D2; Receptors, Dopamine D3

Topics: Animals; Coculture Techniques; Disease Models, Animal; Female; Humans; Huntington Disease; Hydrogen Peroxide; Male; Mice; Mice, Transgenic; Mitochondria; Neural Stem Cells; Piperidines; Pregnancy; Receptors, sigma; Sigma-1 Receptor

Topics: Humans; Huntington Disease; Piperidines

Huntington's disease (HD) is a neurodegenerative disease caused by a CAG repeat expansion in the Huntingtin gene (HTT), translated into a Huntingtin protein with a polyglutamine expansion. There is preferential loss of medium spiny neurons within the striatum and cortical pyramidal neurons. Pridopidine is a small molecule showing therapeutic potential in HD preclinical and clinical studies. Pridopidine has nanomolar affinity to the sigma-1 receptor (sigma-1R), which is located predominantly at the endoplasmic reticulum (ER) and mitochondrial associated ER membrane, and activates neuroprotective pathways. Here we evaluate the neuroprotective effects of pridopidine against mutant Huntingtin toxicity in mouse and human derived in vitro cell models. We also investigate the involvement of the sigma-1 receptor in the mechanism of pridopidine. Pridopidine protects mutant Huntingtin transfected mouse primary striatal and cortical neurons, with an EC50 in the mid nanomolar range, as well as HD patient-derived induced pluripotent stem cells (iPSCs). This protection by pridopidine is blocked by NE-100, a purported sigma-1 receptor antagonist, and not blocked by ANA-12, a reported TrkB receptor antagonist. 3PPP, a documented sigma-1 receptor agonist, shows similar neuroprotective effects. Genetic knock out of the sigma-1 receptor dramatically decreases protection from pridopidine and 3PPP, but not protection via brain derived neurotrophic factor (BDNF). The neuroprotection afforded by pridopidine in our HD cell models is robust and sigma-1 receptor dependent. These studies support the further development of pridopidine, and other sigma-1 receptor agonists as neuroprotective agents for HD and perhaps for other disorders.

Topics: Animals; Cells, Cultured; Humans; Huntingtin Protein; Huntington Disease; Mice; Mice, Knockout; Neurons; Neuroprotective Agents; Piperidines; Receptors, sigma; Sigma-1 Receptor

Huntington Disease (HD) is an incurable autosomal dominant neurodegenerative disorder driven by an expansion repeat giving rise to the mutant huntingtin protein (mHtt), which is known to disrupt a multitude of transcriptional pathways. Pridopidine, a small molecule in development for treatment of HD, has been shown to improve motor symptoms in HD patients. In HD animal models, pridopidine exerts neuroprotective effects and improves behavioral and motor functions. Pridopidine binds primarily to the sigma-1 receptor, (IC50 ~ 100 nM), which mediates its neuroprotective properties, such as rescue of spine density and aberrant calcium signaling in HD neuronal cultures. Pridopidine enhances brain-derived neurotrophic factor (BDNF) secretion, which is blocked by putative sigma-1 receptor antagonist NE-100, and was shown to upregulate transcription of genes in the BDNF, glucocorticoid receptor (GR), and dopamine D1 receptor (D1R) pathways in the rat striatum. The impact of different doses of pridopidine on gene expression and transcript splicing in HD across relevant brain regions was explored, utilizing the YAC128 HD mouse model, which carries the entire human mHtt gene containing 128 CAG repeats.. RNAseq was analyzed from striatum, cortex, and hippocampus of wild-type and YAC128 mice treated with vehicle, 10 mg/kg or 30 mg/kg pridopidine from the presymptomatic stage (1.5 months of age) until 11.5 months of age in which mice exhibit progressive disease phenotypes.. The most pronounced transcriptional effect of pridopidine at both doses was observed in the striatum with minimal effects in other regions. In addition, for the first time pridopidine was found to have a dose-dependent impact on alternative exon and junction usage, a regulatory mechanism known to be impaired in HD. In the striatum of YAC128 HD mice, pridopidine treatment initiation prior to symptomatic manifestation rescues the impaired expression of the BDNF, GR, D1R and cAMP pathways.. Pridopidine has broad effects on restoring transcriptomic disturbances in the striatum, particularly involving synaptic transmission and activating neuroprotective pathways that are disturbed in HD. Benefits of treatment initiation at early disease stages track with trends observed in the clinic.

Topics: Animals; Brain; Gene Expression; Gene Expression Profiling; Humans; Huntington Disease; Mice; Mice, Transgenic; Neuroprotection; Neuroprotective Agents; Piperidines; Synaptic Transmission

Topics: Biomarkers; Clinical Trials as Topic; Disease Progression; Endpoint Determination; Humans; Huntington Disease; Molecular Targeted Therapy; Oligonucleotides, Antisense; Piperidines; Placebo Effect

Pridopidine is an oral drug in clinical development for treatment of patients with Huntington's disease. This study examined the interactions of pridopidine with in vitro cytochrome P450 activity and characterized the effects of pridopidine on CYP2D6 activity in healthy volunteers using metoprolol as a probe substrate. The effect of food on pridopidine exposure was assessed.. The ability of pridopidine to inhibit and/or induce in vitro activity of drug metabolizing enzymes was examined in human liver microsomes and fresh hepatocytes. CYP2D6 inhibition potency and reversibility was assessed using dextromethorphan. For the clinical assessment, 22 healthy subjects were given metoprolol 100 mg alone and concomitantly with steady-state pridopidine 45 mg twice daily. Food effect on a single 90 mg dose of pridopidine was evaluated in a crossover manner. Safety assessments and pharmacokinetic sampling occurred throughout the study.. Pridopidine was found to be a metabolism dependent inhibitor of CYP2D6, the main enzyme catalysing its own metabolism. Flavin-containing monooxygenase heat inactivation of liver microsomes did not affect pridopidine metabolism-dependent inhibition of CYP2D6 and its inhibition of CYP2D6 was not reversible with addition of FeCN. As pridopidine is a metabolism-dependent inhibitor of CYP2D6, systemic levels of drugs metabolized by CYP2D6 may increase with chronic coadministration of pridopidine. Pridopidine can be administered without regard to food.

Topics: Area Under Curve; Cells, Cultured; Cross-Over Studies; Cytochrome P-450 CYP2D6; Cytochrome P-450 CYP2D6 Inhibitors; Dextromethorphan; Drug Interactions; Female; Ferricyanides; Food-Drug Interactions; Healthy Volunteers; Hepatocytes; Humans; Huntington Disease; Male; Metoprolol; Microsomes, Liver; Middle Aged; Piperidines

To analyze brain functional connectivity in the somatomotor and default-mode networks (DMNs) of patients with Huntington disease (HD), its relationship with gray matter (GM) volume loss, and functional changes after pridopidine treatment.. Ten patients and ten untreated controls underwent T1-weighted imaging and resting-state functional magnetic resonance imaging (fMRI); four patients were also assessed after 3 months of pridopidine treatment (90 mg/d). The seed-based functional connectivity patterns from the posterior cingulate cortex and the supplementary motor area (SMA), considered cortical hubs of the DMN and somatomotor networks, respectively, were computed. FMRIB Software Library voxel-based morphometry measured GM volume.. Patients had GM volume decrease in all cortical and subcortical areas of the somatomotor network with preservation of the SMA, and increased somatomotor and DMN connectivity. In DMN structures, functional connectivity impairment preceded volume loss. Pridopidine reduced the intensity of these aberrant connections.. The abnormal connectivity of the somatomotor and DMN observed in HD patients may represent an early dysfunction marker, as it preceded volume loss in DMN. Pridopidine reduced connectivity of these networks in all four treated patients, suggesting that connectivity is sensitive to treatment response.

Topics: Adult; Aged; Brain Mapping; Female; Gray Matter; Gyrus Cinguli; Humans; Huntingtin Protein; Huntington Disease; Image Processing, Computer-Assisted; Magnetic Resonance Imaging; Male; Middle Aged; Models, Neurological; Motor Cortex; Neural Pathways; Oxygen; Piperidines; Rest

Pridopidine is currently under clinical development for Huntington disease (HD), with on-going studies to better characterize its therapeutic benefit and mode of action. Pridopidine was administered either prior to the appearance of disease phenotypes or in advanced stages of disease in the YAC128 mouse model of HD. In the early treatment cohort, animals received 0, 10, or 30 mg/kg pridopidine for a period of 10.5 months. In the late treatment cohort, animals were treated for 8 weeks with 0 mg/kg or an escalating dose of pridopidine (10 to 30 mg/kg over 3 weeks). Early treatment improved motor coordination and reduced anxiety- and depressive-like phenotypes in YAC128 mice, but it did not rescue striatal and corpus callosum atrophy. Late treatment, conversely, only improved depressive-like symptoms. RNA-seq analysis revealed that early pridopidine treatment reversed striatal transcriptional deficits, upregulating disease-specific genes that are known to be downregulated during HD, a finding that is experimentally confirmed herein. This suggests that pridopidine exerts beneficial effects at the transcriptional level. Taken together, our findings support continued clinical development of pridopidine for HD, particularly in the early stages of disease, and provide valuable insight into the potential therapeutic mode of action of pridopidine.

Topics: Animals; Anxiety; Behavior, Animal; Corpus Callosum; Corpus Striatum; Depression; Disease Models, Animal; Dose-Response Relationship, Drug; Drug Administration Schedule; Drug Evaluation, Preclinical; Female; Gene Expression Regulation; Huntington Disease; Male; Mice, Transgenic; Motor Activity; Neuroprotective Agents; Piperidines; Secondary Prevention; Transcription, Genetic

The tri-nucleotide repeat expansion underlying Huntington disease (HD) results in corticostriatal synaptic dysfunction and subsequent neurodegeneration of striatal medium spiny neurons (MSNs). HD is a devastating autosomal dominant disease with no disease-modifying treatments. Pridopidine, a postulated "dopamine stabilizer", has been shown to improve motor symptoms in clinical trials of HD. However, the target(s) and mechanism of action of pridopidine remain to be fully elucidated. As binding studies identified sigma-1 receptor (S1R) as a high-affinity receptor for pridopidine, we evaluated the relevance of S1R as a therapeutic target of pridopidine in HD. S1R is an endoplasmic reticulum - (ER) resident transmembrane protein and is regulated by ER calcium homeostasis, which is perturbed in HD. Consistent with ER calcium dysregulation, we observed striatal upregulation of S1R in aged YAC128 transgenic HD mice and HD patients. We previously demonstrated that dendritic MSN spines are lost in aged corticostriatal co-cultures from YAC128 mice. We report here that pridopidine and the chemically similar S1R agonist 3-PPP prevent MSN spine loss in aging YAC128 co-cultures. Spine protection was blocked by neuronal deletion of S1R. Pridopidine treatment suppressed supranormal ER Ca

Topics: Aging; Animals; Calbindins; Calcium; Cations, Divalent; Coculture Techniques; Corpus Striatum; Dendritic Spines; Disease Models, Animal; Endoplasmic Reticulum; Humans; Huntington Disease; Mice; Mice, Transgenic; Neuroprotective Agents; Piperidines; Rats, Inbred SHR; Receptors, sigma; Sigma-1 Receptor; Synapses

Pridopidine has demonstrated improvement in Huntington Disease (HD) motor symptoms as measured by secondary endpoints in clinical trials. Originally described as a dopamine stabilizer, this mechanism is insufficient to explain the clinical and preclinical effects of pridopidine. This study therefore explored pridopidine's potential mechanisms of action. The effect of pridopidine versus sham treatment on genome-wide expression profiling in the rat striatum was analysed and compared to the pathological expression profile in Q175 knock-in (Q175 KI) vs Q25 WT mouse models. A broad, unbiased pathway analysis was conducted, followed by testing the enrichment of relevant pathways. Pridopidine upregulated the BDNF pathway (P = 1.73E-10), and its effect on BDNF secretion was sigma 1 receptor (S1R) dependent. Many of the same genes were independently found to be downregulated in Q175 KI mice compared to WT (5.2e-7 < P < 0.04). In addition, pridopidine treatment upregulated the glucocorticoid receptor (GR) response, D1R-associated genes and the AKT/PI3K pathway (P = 1E-10, P = 0.001, P = 0.004, respectively). Pridopidine upregulates expression of BDNF, D1R, GR and AKT/PI3K pathways, known to promote neuronal plasticity and survival, as well as reported to demonstrate therapeutic benefit in HD animal models. Activation of S1R, necessary for its effect on the BDNF pathway, represents a core component of the mode of action of pridopidine. Since the newly identified pathways are downregulated in neurodegenerative diseases, including HD, these findings suggest that pridopidine may exert neuroprotective effects beyond its role in alleviating some symptoms of HD.

Topics: Animals; Brain-Derived Neurotrophic Factor; Corpus Striatum; Disease Models, Animal; Gene Expression Regulation; Genome; Humans; Huntington Disease; Mice; Neuroprotective Agents; Piperidines; Rats; Receptors, Dopamine D5; Receptors, Glucocorticoid; Signal Transduction

Huntington disease (HD) is a neurodegenerative disorder for which new treatments are urgently needed. Pridopidine is a new dopaminergic stabilizer, recently developed for the treatment of motor symptoms associated with HD. The therapeutic effect of pridopidine in patients with HD has been determined in two double-blind randomized clinical trials, however, whether pridopidine exerts neuroprotection remains to be addressed. The main goal of this study was to define the potential neuroprotective effect of pridopidine, in HD in vivo and in vitro models, thus providing evidence that might support a potential disease-modifying action of the drug and possibly clarifying other aspects of pridopidine mode-of-action. Our data corroborated the hypothesis of neuroprotective action of pridopidine in HD experimental models. Administration of pridopidine protected cells from apoptosis, and resulted in highly improved motor performance in R6/2 mice. The anti-apoptotic effect observed in the in vitro system highlighted neuroprotective properties of the drug, and advanced the idea of sigma-1-receptor as an additional molecular target implicated in the mechanism of action of pridopidine. Coherent with protective effects, pridopidine-mediated beneficial effects in R6/2 mice were associated with an increased expression of pro-survival and neurostimulatory molecules, such as brain derived neurotrophic factor and DARPP32, and with a reduction in the size of mHtt aggregates in striatal tissues. Taken together, these findings support the theory of pridopidine as molecule with disease-modifying properties in HD and advance the idea of a valuable therapeutic strategy for effectively treating the disease.

Topics: Animals; Apoptosis; Brain-Derived Neurotrophic Factor; Cell Line, Transformed; Disease Models, Animal; Dopamine and cAMP-Regulated Phosphoprotein 32; Huntington Disease; Mice; Motor Activity; Neuroprotective Agents; Piperidines

Huntington disease (HD) is a chronic, genetic, neurodegenerative disease for which there is no cure. The main symptoms of HD are abnormal involuntary movements (chorea and dystonia), impaired voluntary movements (ie, incoordination and gait balance), progressive cognitive decline, and psychiatric disturbances. HD is caused by a CAG-repeat expanded mutation in the HTT gene, which encodes the huntingtin protein. The inherited mutation results in the production of an elongated polyQ mutant huntingtin protein (mHtt). The cellular functions of the Htt protein are not yet fully understood, but the functions of its mutant variant are thought to include alteration of gene transcription and energy production, and dysregulation of neurotransmitter metabolism, receptors, and growth factors. The phenylpiperidines pridopidine (4-[3-methanesulfonyl-phenyl]-1-propyl-piperidine; formerly known as ACR16) and OSU6162 ([S]-[-]-3-[3-methane [sulfonyl-phenyl]-1-propyl-piperidine) are members of a new class of pharmacologic agents known as "dopamine stabilizers". Recent clinical trials have highlighted the potential of pridopidine for symptomatic treatment of patients with HD. More recently, the analysis of HD models (ie, in vitro and in mice) highlighted previously unknown effects of pridopidine (increase in brain-derived neurotrophic factor, reduction in mHtt levels, and σ-1 receptor binding and modulation). These additional functions of pridopidine suggest it might be a neuroprotective and disease-modifying drug. Data from ongoing clinical trials of pridopidine will help define its place in the treatment of HD. This commentary examines the available preclinical and clinical evidence regarding the use of pridopidine in HD.

Topics: Animals; Dopamine; Dopamine Agents; Humans; Huntingtin Protein; Huntington Disease; Nerve Tissue Proteins; Neuroprotective Agents; Piperidines

Topics: Dopamine Agents; Female; Humans; Huntington Disease; Male; Piperidines

Topics: Female; Humans; Huntington Disease; Male; Motor Activity; Piperidines

Topics: Clinical Trials, Phase III as Topic; Dopamine; Drug Evaluation, Preclinical; Humans; Huntington Disease; Movement Disorders; Piperidines

The CHDI Fifth Annual HD Therapeutics Conference, held in Palm Springs, CA, included topics covering new therapeutic developments in the field of Huntington's disease (HD). This conference report highlights presentations on biomarkers in HD; emerging topics in drug targeting, such as the lysosomal degradation pathway and target prediction by network-based modeling; understanding phenotype and neuronal circuit dysfunction in animal models; regulation of huntingtin protein expression and function; RNAi and antisense technology to deplete the mutant huntingtin protein; and small-molecule drugs that are progressing quickly through the clinic. Investigational drugs discussed include ALN-HTT (Alnylam Pharmaceuticals Inc/Medtronic Inc), EPI-743 (Edison Pharmaceuticals Inc), LNK-754 (Link Medicine Corp) and pridopidine (NeuroSearch A/S).

Topics: Animals; Biomarkers; Disease Models, Animal; Dopamine; Drug Delivery Systems; Enzyme Inhibitors; Farnesyltranstransferase; Humans; Huntingtin Protein; Huntington Disease; Leigh Disease; Lysosomes; Models, Biological; Nerve Tissue Proteins; Neurodegenerative Diseases; Nuclear Proteins; Oligonucleotides, Antisense; Phosphorylation; Piperidines; RNA, Small Interfering; Sheep; Sirtuin 1; Ubiquinone