Duane A. Burnett scite author profile

BackgroundFamilial Alzheimer’s disease (FAD) is caused by mutations in the amyloid precursor protein (APP) or presenilin (PS). Most PS mutations, which account for the majority of FAD cases, lead to an increased ratio of longer to shorter forms of the amyloid beta (Aβ) peptide. The therapeutic rationale of γ-secretase modulators (GSMs) for Alzheimer’s disease is based on this genetic evidence as well as on enzyme kinetics measurements showing changes in the processivity of the γ-secretase complex. This analysis suggests that GSMs could potentially offset some of the effects of PS mutations on APP processing, thereby addressing the root cause of early onset FAD. Unfortunately, the field has generated few, if any, molecules with good central nervous system (CNS) drug-like properties to enable proof-of-mechanism studies.MethodWe characterized the novel GSM FRM-36143 using multiple cellular assays to determine its in vitro potency and off-target activity as well as its potential to reverse the effect of PS mutations. We also tested its efficacy in vivo in wild-type mice and rats.ResultsFRM-36143 has much improved CNS drug-like properties compared to published GSMs. It has an in vitro EC50 for Aβ42 of 35 nM in H4 cells, can reduce Aβ42 to 58 % of the baseline in rat cerebrospinal fluid, and also increases the non-amyloidogenic peptides Aβ37 and Aβ38. It does not inhibit Notch processing, nor does it inhibit 24-dehydrocholesterol reductase (DHCR24) activity. Most interestingly, it can reverse the effects of presenilin mutations on APP processing in vitro.ConclusionsFRM-36143 possesses all the characteristics of a GSM in terms of Aβ modulation Because FRM-36143 was able to reverse the effect of PS mutations, we suggest that targeting patients with this genetic defect would be the best approach at testing the efficacy of a GSM in the clinic. While the amyloid hypothesis is still being tested with β-site APP-cleaving enzyme inhibitors and monoclonal antibodies in sporadic AD, we believe it is not a hypothesis for FAD. Since GSMs can correct the molecular defect caused by PS mutations, they have the promise to provide benefits to the patients when treated early enough in the course of the disease.

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Design, Synthesis, and Evaluation of a Novel Series of Oxadiazine Gamma Secretase Modulators for Familial Alzheimer’s Disease

Bursavich¹,

Harrison²,

Acharya³

et al. 2017

J. Med. Chem.

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Herein we describe the design, synthesis, and evaluation of a novel series of oxadiazine-based gamma secretase modulators obtained via isosteric amide replacement and critical consideration of conformational restriction. Oxadiazine lead 47 possesses good in vitro potency with excellent predicted CNS drug-like properties and desirable ADME/PK profile. This lead compound demonstrated robust Aβ reductions and subsequent Aβ increases in both rodent brain and CSF at 30 mg/kg dosed orally.

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Strategic and Tactical Approaches to the Synthesis of 5,6-Dihydro-[1,2,4]oxadiazines

Veerman¹,

Bursavich²,

Bruseker³

et al. 2016

HETEROCYCLES

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Scaffold-hopping from xanthines to tricyclic guanines: A case study of dipeptidyl peptidase 4 (DPP4) inhibitors

Pissarnitski

Zhao

Cole

et al. 2016

Bioorganic & Medicinal Chemistry

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ChemInform Abstract: Discovery of 1‐(4‐Fluorophenyl)‐(3R)‐ [3‐(4‐fluorophenyl)‐(3S)‐hydroxypropyl] ‐(4S)‐(4‐hydroxyphenyl)‐2‐azetidinone (SCH 58235): A Designed, Potent, Orally Active Inhibitor of Cholesterol Absorption.

Rosenblum¹,

Huynh²,

Afonso³

et al. 1998

ChemInform

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Duane A. Burnett

Characterization of FRM-36143 as a new γ-secretase modulator for the potential treatment of familial Alzheimer’s disease

Design, Synthesis, and Evaluation of a Novel Series of Oxadiazine Gamma Secretase Modulators for Familial Alzheimer’s Disease

Strategic and Tactical Approaches to the Synthesis of 5,6-Dihydro-[1,2,4]oxadiazines

Scaffold-hopping from xanthines to tricyclic guanines: A case study of dipeptidyl peptidase 4 (DPP4) inhibitors

ChemInform Abstract: Discovery of 1‐(4‐Fluorophenyl)‐(3R)‐ [3‐(4‐fluorophenyl)‐(3S)‐hydroxypropyl] ‐(4S)‐(4‐hydroxyphenyl)‐2‐azetidinone (SCH 58235): A Designed, Potent, Orally Active Inhibitor of Cholesterol Absorption.

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