Therapeutics

AN-1792

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Overview

Name: AN-1792
Synonyms: AIP 001
Therapy Type: Immunotherapy (active) (timeline)
Target Type: Amyloid-Related (timeline)
Condition(s): Alzheimer's Disease
U.S. FDA Status: Alzheimer's Disease (Discontinued)
Company: Janssen, Pfizer
Approved for: None

Background

AN-1792 was the first active immunotherapy strategy for Alzheimer's disease. AN-1792 consists of synthetic full-length Aβ peptide with QS-21 adjuvant. The rationale was that AN-1792 would induce an immune response that would remove brain amyloid deposition. Extensive preclinical evidence showed that immunization with Aβ1-42 peptide can prevent or reverse the development of the neuropathological hallmarks of Alzheimer's disease, including  amyloid plaque formation, neuritic dystrophy, synaptic loss, gliosis, and impaired performance in behavioral assays (e.g. Schenk et al., 1999).

Findings

Dosing in a 372-patient, multinational Phase 2a trial in people with mild to moderate AD was suspended when four treated patients developed brain inflammation that later proved to be aseptic meningoencephalitis. Altogether, six percent of patients came down with this side effect. In 2002, development of AN-1792 was terminated, but follow-up assessment of treated patients continued.

Postmortem pathology examination of patients who had received AN-1792 in Phase 1 or 2a showed that the vaccine had markedly cleared plaque from the brain.  It did not clear neurofibrillary tangles. Postmortem pathology also showed T cell infiltration and inflammation around leptomeningeal blood vessels, especially near vascular amyloid (e.g. Nicoll et al., 2003). Only a minority of patients treated with AN-1792 mounted a significant antibody response, primarily with antibodies directed against the N-terminus of Aβ (see Lee et al., 2005). Eight responders from the Phase 1 trial were reported to have died from end-stage Alzheimer's disease despite brain amyloid clearance (see Holmes et al., 2008). In contrast, a 4.6 year follow up of 159 patients from the Phase 2a trial reported functional benefit in responders (see Vellas et al., 2009). Biomarker analysis in the AN-1792 program was limited. CSF assays reported a trend toward reduction in CSF phospho-tau concentrations in responders, and subsequent phospho-tau analysis of postmortem brain tissue reported a reduction of aggregated tau in neuronal processes (Boche et al., 2010). MRI scans at baseline and after treatment showed a transient increase in brain atrophy in responders, considered paradoxical at the time (see Jul 2004 conference story).

Clinical Trial Timeline

  • Phase 2
  • Study completed / Planned end date
  • Planned end date unavailable
  • Study aborted
Sponsor Clinical Trial 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035
Janssen NCT00021723
N=375

Last Updated: 04 Mar 2016

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Therapeutics

Alzhemed™

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Overview

Name: Alzhemed™
Synonyms: Vivimind™, Tramiprosate, NC-531, homotaurine, 3-APS
Chemical Name: 3-amino-1-propanesulfonic acid, 3-aminopropylsulfonic acid
Therapy Type: Supplement, Dietary (timeline)
Target Type: Amyloid-Related (timeline)
Condition(s): Alzheimer's Disease
U.S. FDA Status: Alzheimer's Disease (Discontinued)
Company: Neurochem, Inc.
Approved for: None

Background

Alzhemed was designed as an anti-amyloid therapy. It is a patented variant of the amino acid taurine, which is reported to inhibit the interaction of Aβ with endogenous glycosaminoglycans and thereby prevent β-sheet formation. This drug originated in a screen for low-molecular-weight molecules that mimic glycosaminoglycans and can therefore antagonize the interaction of Aβ with endogenous glycosaminoglycans. Glycosaminoglycans have been reported to promote Aβ aggregation and plaque stability (Gupta-Bansal et al., 1995), and Alzhemed has been proposed to interfere with amyloid fibril formation and deposition into plaques.

In vitro, Alzhemed was reported to preferentially bind soluble Aβ, inhibit its aggregation, fibrillogenesis, and neurotoxicity (Gervais et al., 2001Gervais et al., 2007). A decade later, multiple Alzhemed molecules were reported to bind to one Aβ42 monomer and prevent fibrillar seed formation and neuronal toxicity (Kocis et al., 2017). It takes a 1,000-fold molar excess of Alzhemed over Aβ to prevent oligomer formation. In TgCRND8 mice, systemic Alzhemed reduced brain amyloid by 30 percent. In contrast, the drug reportedly promotes abnormal aggregation of tau (Sept 2007 news).

Homotaurine is also a GABA A receptor agonist (Caltagirone et al., 2012).

Findings

In a Phase 2 study beginning in 2002, 58 people with mild to moderate AD received 50, 100, or 150 mg Alzhemed or placebo daily for three months. Endpoints included CSF Aβ and tau concentrations, and cognitive measures. Subsequently, 42 participants continued into open-label dosing with 150 mg for 17 months. The drug appeared safe, and reduced CSF Aβ42 after three months (Aisen et al., 2006). In the long-term extension, people with mild AD were reported to have stayed cognitively stable at 20 months (Jan 2007 conference news).

In June 2004, Alzhemed became the first anti-amyloid drug to enter Phase 3. This study enrolled 1,052 people age 50 or older with mild to moderate AD at 67 centers in the U.S. and Canada. They received 100 or 150 mg Alzhemed or placebo daily for 18 months, followed by one year of open-label extension. Primary endpoints were change in the ADAS-Cog and CDR-SB. The trial also tracked brain volume with MRI, and CSF Aβ and tau concentrations. A similar study in Europe began enrolling 930 participants in 2005.

In mid-2007, NeuroChem announced the trial had failed to measure an improvement in cognition in the North American trial (Aug 2007 news). In November 2007, the company stopped the European trial, but continued the open-label extension of the North American trial. Results were subsequently published (Aisen et al., 2011).

After discontinuing clinical development, NeuroChem pivoted to marketing Alzhemed as a nutritional supplement (Nov 2007 conference news). NeuroChem changed its name to Bellus Health and, in 2008, began to sell Alzhemed under the brand name Vivimind™ over the counter in Canada (Oct 2008 news). In 2011, the FDA refused to permit sales of Vivimind™ in the U.S., on the grounds that homotaurine did not qualify as a nutrient (see news).

Nine years later, a subgroup analysis of the Phase 2 and 3 data, including from their open-label extensions, was reported to indicate that the drug had slowed cognitive decline in ApoE4 homozygotes, and perhaps halted decline in those with mild AD (Abushakra et al., 2016Abushakra et al., 2017). In 2013, the U.S. startup Alzheon licensed ALZ-801, a prodrug version of Alzhemed currently in development for Alzheimer’s disease. 

For details on Alzhemed trials, see clinicaltrials.gov.

Last Updated: 04 Dec 2019

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Therapeutics

Alpha-Tocopherol

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Overview

Name: Alpha-Tocopherol
Synonyms: Vitamin E
Therapy Type: Supplement, Dietary (timeline)
Target Type: Other (timeline)
Condition(s): Alzheimer's Disease
U.S. FDA Status: Alzheimer's Disease (Phase 3)

Background

Vitamin E is a lipophilic monophenolic compound that can donate a hydrogen atom to saturate and detoxify the unpaired electron of a free radical. It is thought to protect against brain cell damage by destroying toxic free radicals. Alpha-tocopherol is thought to prevent brain cell damage by destroying toxic free radicals.

Last Updated: 22 Nov 2013

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Therapeutics

Affitope AD02

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Overview

Name: Affitope AD02
Therapy Type: Immunotherapy (active) (timeline)
Target Type: Amyloid-Related (timeline)
Condition(s): Alzheimer's Disease
U.S. FDA Status: Alzheimer's Disease (Discontinued)
Company: AFFiRiS AG
Approved for:

Background

Affitope AD02 is a synthetic peptide of six amino acids that mimics the N-terminus of Aβ. AFFiRiS hypothesizes that this fragment enables exclusive recognition of Aβ without cross-reacting with APP, and hence may have a favorable safety profile. This immunogen is short and non-self. Lacking the most common T cell epitope (within amino acids 15–42 of Aβ) but including the B cell epitope (within the first 11–15 amino acids of Aβ), it may allow for the production of anti-Aβ antibodies while minimizing a pro-inflammatory TH1 response.

Findings

A Phase 1 study conducted in Austria tested subcutaneous AD02 alone and with aluminium hydroxide adjuvant in 24 patients with mild to moderate Alzheimer's disease. It showed a favorable safety and tolerability profile at one year. No meningoencephalitis was reported. Phase 1b extensions tested booster doses, immunogenicity, and tolerability at two years.

Between September 2010 and December 2013, a 332-patient, multicenter Phase 2 trial of AD02 in patients with early AD as diagnosed by episodic memory deficit and hippocampal atrophy was conducted in Europe. At a press briefing in June 2014, AFFiRiS showed limited trial data suggesting that AD02 had not reached either primary or secondary outcome measures. A follow-up study is still listed as enrolling. 

Data presented at the press briefing discussed two different placebo groups, in contrast to the one listed on the trial's clinicaltrials.gov entry. At the press briefing, Affiris claimed that one of two different placebo formulations had a greater benefit on the primary outcome than the other placebo formulation or any of the three AD02 treatment groups. AFFiRiS then renamed this placebo formulation AD04 (see Jun 2014 News Story). 

See all AD02 trials listed in clinicaltrials.gov.

Clinical Trial Timeline

  • Phase 2
  • Study completed / Planned end date
  • Planned end date unavailable
  • Study aborted
Sponsor Clinical Trial 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035
AFFiRiS AG NCT01117818
N=300

Last Updated: 31 Aug 2023

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Therapeutics

AF 102B

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Overview

Name: AF 102B
Synonyms: cevimeline HCL, Evoxac™
Therapy Type: Small Molecule (timeline)
Target Type: Cholinergic System (timeline)
Condition(s): Alzheimer's Disease
U.S. FDA Status: Alzheimer's Disease (Discontinued)
Company: SnowBrand Pharmaceuticals, Inc.
Approved for: Treatment of dry mouth in Sjogren's syndrome.

Background

Hypo-activity of the cholinergic system is associated AD and cognitive decline. Two different strategies have been used to increase cholinergic acitvity  in the AD brain: 1) acetylcholinesterase inhibitors and 2) direct stimulation of cholinergic receptors. AF-102B activates a subset of muscarinic acetylcholine receptors (M1) which has been shown to benefit cognition in AD patients and to attenuate Aβ and tau pathology in animal models. Drugs that activate M1 receptors have been shown to enhance α-secretase activity in cell culture, and therefore shift APP processing toward the non-amyloidogenic path (Caccamo et al., 2009). AF-102B is an analog of acetylcholine. It activates muscarinic acetylcholine receptors (M1 subtype) and is thought to stimulate α-secretase activity and thereby lower aβ production. 

Last Updated: 10 Dec 2013

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Therapeutics

Acetyl-l-carnitine HCI

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Overview

Name: Acetyl-l-carnitine HCI
Synonyms: ALCAR
Therapy Type: Supplement, Dietary (timeline)
Target Type: Other (timeline)
Condition(s): Alzheimer's Disease
U.S. FDA Status: Alzheimer's Disease (Discontinued)
Company: Sigma-Tau Pharmaceuticals
Approved for:

Background

ALCAR is a naturally occurring substance. It can be metabolized to acetyl-COA by the carnitine transferase reaction and may serve as an alternative source of fuel for the citric-acid cycle, thus promoting aerobic energy metabolism, reducing tissue acidosis. ALCAR is thought to have several properties that may be beneficial in dementia. It may protect against oxidative stress indirectly by promoting oxidative metabolism and inhibiting tissue lactic acidosis, a condition that favors reactive oxygen species production. In addition, continued oxidative metabolism provides NADPH, the reducing power needed to convert oxidized glutathione to the reduced form capable of detoxifying H202 and other organic peroxides. Acetyl-CoA is also important to the biosynthesis of acetylcholine. 

Findings

ALCAR has been found to be cardioprotective as well as neuroprotective in a number of disease models (hypoxia/ischmia, traumatic brain injury) (Zanelli et al., 2005). Beneficial effects of ALCAR on memory have been observed in aging rats (Liu et al., 2002) as well as in human studies of MCI and AD (Montgomery et al., 2003; Sano et al., 1992) although a meta-analysis failed to confirm the beneficial effects (Hudson and Tabet, 2003).

Last Updated: 07 Nov 2018

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Therapeutics

Vanutide cridificar

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Overview

Name: Vanutide cridificar
Synonyms: ACC-001, PF-05236806
Therapy Type: Immunotherapy (active) (timeline)
Target Type: Amyloid-Related (timeline)
Condition(s): Alzheimer's Disease
U.S. FDA Status: Alzheimer's Disease (Discontinued)
Company: Janssen
Approved for: None

Background

This is an active immunotherapy strategy. ACC-001 is a conjugate of multiple short Aβ fragments linked to a carrier made of inactivated diphtheria toxin. Vanutide cridificar is designed to avoid the safety concerns associated with the prior AN1792 active vaccine against full-length Aβ1-42.  Autoimmune meningoencephalitis caused by Th1 lymphocyte activation was attributed to Aβ residues 15–42. The Aβ fragments used in vanutide cridificar consist of amino acids 1–7. This N-terminal end contains a β cell epitope but is thought to avoid a T cell-mediated response against Aβ. Preclinical data indicate that vanutide cridificar generates N-terminal anti-Aβ antibodies but no Aβ-directed T cell response, and that it reverses cognitive impairment in murine models of AD. Elan research indicates that a small proportion of peripherally administered antibodies specific for Aβ peptide can cross the blood-brain barrier and act directly in the central nervous system to induce plaque clearance.

Findings

Vanutide cridificar was being tested in multiple Phase 2 trials, generally with a regimen of multiple injections over a year of doses ranging from 3–30 micrograms of vaccine, with or without the adjuvant QS-21. No results have been published in peer-reviewed journals. On July 14, 2013, at the Alzheimer's Association International Conference in Boston, researchers presented results of a trial in 40 patients in Japan with mild to moderate AD that found that co-administration of adjuvant was necessary to elicit a strong antibody response. This report indicated that the treatment was generally safe and well-tolerated, but noted one serious adverse event related to the study drug (see Arai et al., 2013). In August 2013, Pfizer's company pipeline listed this immunotherapy as having been discontinued from clinical development.

For details on all clinical trials of vanutide cridificar starting with Phase 1, see clinicaltrials.gov

Clinical Trial Timeline

  • Phase 2
  • Study completed / Planned end date
  • Planned end date unavailable
  • Study aborted
Sponsor Clinical Trial 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035
Pfizer, Janssen NCT00479557
N=86RESULTS
Pfizer, Janssen NCT00498602
N=245RESULTS
Pfizer, Janssen NCT00752232
N=40RESULTS
Pfizer, Janssen NCT00960531
N=160RESULTS
Pfizer, Janssen NCT00959192
N=32RESULTS
Pfizer, Janssen NCT00955409
N=50
Pfizer, Janssen NCT01238991
N=67RESULTS
Pfizer, Janssen NCT01227564
N=63RESULTS
Janssen, Pfizer NCT01284387
N=126

Last Updated: 25 Oct 2023

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Therapeutics

Tricaprilin

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Overview

Name: Tricaprilin
Synonyms: AC-1204 , Caprylic triglyceride, AC-SD-03, CER-000, AC-OLE-O1-VA
Therapy Type: Supplement, Dietary (timeline), Other
Target Type: Other (timeline)
Condition(s): Alzheimer's Disease
U.S. FDA Status: Alzheimer's Disease (Phase 3)
Company: Cerecin Pte. Ltd.
Approved for: None

Background

Tricaprilin is the follow-up to Accera's AC-1202/Axona medical food product. It is a proprietary, oral formulation of caprylic triglyceride, which was designed to induce a mild chronic ketosis in order to improve mitochondrial metabolism. Regional reductions in cerebral glucose utilization are an early feature of Alzheimer's disease (Reiman et al., 2004). The rationale behind tricaprilin is to boost cellular metabolism in Alzheimer's by providing a fuel alternative to glucose. Caprylic acid is metabolized into so-called ketone bodies, such as acetoacetic acid and β-hydroxybutyric acid, which can be converted to acetyl-CoA to produce energy via the citric acid cycle.

Findings

Based on clinical experience with Accera's Axona, a medical food similar to tricaprilin, this new formulation entered clinical evaluation in Phase 2/3.

In December 2012, Accera withdrew ALERT, a planned six-month Phase 2/3 trial it had previously registered (NCT01211782), reportedly because it was being redesigned. 

From March 2013 to October 2016, Accera conducted NOURISH AD, a multicenter, six-month efficacy trial with an optional six-month, open-label extension. This trial enrolled 418 patients with mild to moderate AD at 82 locations in the U.S. It compared the effect of once-daily administration of 40 g of AC-1204 containing 20 mg of the active ingredient caprylic triglyceride to placebo on the Alzheimer's Disease Assessment Scale–Cognitive Subscale (ADAS–Cog) in ApoE4 noncarriers. As secondary outcomes, the trial used additional cognitive, clinical, and global measures in ApoE4 noncarriers; other outcomes include overlapping measures in ApoE4 carriers plus still more cognitive and clinical measures in both carriers and non-carriers. 

In 2016, Accera started three Phase 1 studies of AC-1204 in a total of 52 healthy volunteers. One compares serum ketone body levels after administration of AC-1204 versus caprylic triglyceride oil, as well as interactions with a high-fat diet; one compares serum ketone body generation after AC-1204 mixed in water or AC-1202 in water, versus AC-1202 in Ensure; and one compares ketone body generation after a single dose of AC-1204 to similar formulations, including AC-1202. Also in 2016, Accera conducted a pilot safety study of AC-1204 in 10 people with amyotrophic lateral sclerosis.

On February 28, 2017, Accera announced that the NOURISH-AD trial had failed to detect a statistically significant difference between AC-1204 and placebo on the ADAS-cog (see company press release). The data were subsequently published (Henderson et al., 2020). Part of the failure was attributed to poor bioavailability of the new formulation, which produced lower plasma ketone concentrations than did Axona.

Between March 2017 and May 2020, the company performed four Phase 1 trials of new formulations of tricaprilin. As presented at the 2020 CTAD virtual meeting, the AC-SD-03 formulation was chosen for further development based on its pharmacokinetics and tolerability. In an ascending dose study in people over age 50, a 30 mg dose resulted in blood ketone levels above the target of 500 μM. The most common side effects were gastrointestinal, including abdominal distention, discomfort and nausea. The maximum ketone concentrations and total plasma exposure did not differ between Caucasian and Chinese participants.

In October 2018, Accera changed its name to Cerecin, following investments from a Singapore-based agribusiness group and a private equity fund backed by Nestlé (press release).

In December 2019, Cerecin registered a Phase 3 trial of AC-SD-03, now also called CER-0001. It aimed to enroll 300 people with mild to moderate AD who do not carry an ApoE4 allele and whose FDG-PET glucose uptake pattern is typical of AD. They were to drink 20 g of tricaprilin mixed into 240 ml of water twice per day for six months, as an add-on to any ongoing treatments. The primary outcome was change in ADAS-Cog11, with secondary outcomes of safety and tolerability, the Clinical Global Assessment of Change, and measures of disability, dependence, and resource utilization. An optional 30-week open-label extension was planned. This study never began enrolling, and was withdrawn in April 2023.

In July 2022, Cerecin began Phase 1 testing of a new formulation of tricaprilin, designated AC-OLE-01-VA. An initial trial evaluated pharmacokinetics, safety, and tolerability. A second trial began in November 2022, comparing three different titration and dosing schedules against an outcome of discomfort due to nausea, indigestion, abdominal pain, distension, and diarrhea. This trial was to finish in February 2023.

In April 2023, the company registered a Phase 3 trial of AC-OLE-01-VA for Alzheimer’s disease. Meant to start in January 2024, it plans to enroll 535 people with mild to moderate AD who are taking cholinesterase inhibitors or memantine. Participants will titrate to a dose of 20g twice daily for six months, against primary outcomes of the ADAS-Cog and ADCS-Clinical Global Impression of Change. Secondary outcomes are safety, tolerability, and activities of daily living.

In October 2020, the FDA granted Orphan Drug designation to CER-0001 for treatment of infantile spasms, a rare form of epilepsy which occurs in the first year of life, and is improved with a ketogenic diet. An open-label trial began in November 2021 in eight infants in Australia; the company reported positive results (Aug 2023 press release). Cerecin is also developing CER-0001 for migraine prevention.

For all clinical trials on tricaprilin, see clinicaltrials.gov.

Clinical Trial Timeline

  • Phase 2/3
  • Study completed / Planned end date
  • Planned end date unavailable
  • Study aborted
Sponsor Clinical Trial 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035
Accera, Inc. NCT01741194
N=480

Last Updated: 18 Oct 2023

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