BMD42-2910, a Novel Benzoxazole Derivative, Shows a Potent Anti-prion Activity and Prolongs the Mean Survival in an Animal Model of Prion Disease

Hyeon, Jae Wook; Noh, Ran; Choi, Jiwon; Lee, Sol Moe; Lee, Yeong Seon; An, Seong Soo A.; No, Kyoung Tai; Lee, Jeongmin

doi:10.5607/en.2020.29.1.93

Cited by 4 publications

(6 citation statements)

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“…The toxic species in amyloid and prion diseases are generally considered to be small toxic oligomeric aggregates (Sengupta and Udgaonkar, 2018;Verma et al, 2015), but so far no drugs or treatments that target such aggregates have been approved against prion diseases (Hyeon et al, 2020;Lee et al, 2019;Mashima et al, 2020). Potential drug molecules may interfere with oligomer formation in various ways: by reducing production of the protein, by inhibiting its aggregation, by diverting the aggregation pathway(s) towards non-toxic forms, or by reducing the lifetime of the toxic forms, for example by promoting rapid aggregation into larger non-toxic aggregates.…”

Section: Introductionmentioning

confidence: 99%

The engineered peptide construct NCAM1-Aβ inhibits aggregation of the human prion protein (PrP)

Gielnik

Zhukova

Zhukov

et al. 2021

Preprint

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In prion diseases, the prion protein (PrP) becomes misfolded and forms fibrillar aggregates, which are resistant to proteinase degradation and become responsible for prion infectivity and pathology. So far, no drug or treatment procedures have been approved for prion disease treatment. We have previously shown that engineered cell-penetrating peptide constructs can reduce the amount of prion aggregates in infected cells. The molecular mechanisms underlying this effect are however unknown. Here, we use atomic force microscopy (AFM) imaging to show that the aggregation of the human PrP protein can be inhibited by equimolar amounts of the 25 residues long engineered peptide construct NCAM1-Aβ.

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Section: Introductionmentioning

confidence: 99%

The engineered peptide construct NCAM1-Aβ inhibits aggregation of the human prion protein (PrP)

Gielnik

Zhukova

Zhukov

et al. 2021

Preprint

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“… Compound Class Structure Administration route Target MOA Toxicity/BBB penetration Status Ref Anle138b Diphenylpyrazole derivatives Oral PrP C Inhibit PrP Sc oligomerization Safe up to 300 mg/day Phase 1b study PD patients ongoing [ 79–83 ] BMD42-2910 Benzoxazole derivative i.c. PrP C Chaperone Reduce PrP Sc accumulation Non-toxic up to 100 mg/Kg /day in mice in vivo [ 45 , 46 ] Congo red Diazo dye Subcutaneous, i.p. PrP C /PrP Sc Block PrP Sc generation Toxic Poor BBB permeation Non-specific binding to PrP C In vitro, In vivo (early) [ 59–72 ] Cyclodextran Sulphated polyanions PrP C Chaperone Inhibit PrP Sc Oligomerization Non-toxic effects (5 mg/kg BW per day) In vitro [ 129 , 130 ] Dextran sulphate Su...…”

Section: Chemical Compoundsmentioning

confidence: 99%

“…BMD42-2910 is a recently discovered anti-prion agent, which exhibited low EC 50 in vitro without toxic effects in the mouse model [ 45 , 46 ]. The compound significantly reduced PrP Sc in prion-infected mice brains and extended the survival time.…”

Section: Benzoxazole Derivativementioning

confidence: 99%

Prion therapeutics: Lessons from the past

Shim

Sharma

2022

Prion

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Prion diseases are a group of incurable zoonotic neurodegenerative diseases (NDDs) in humans and other animals caused by the prion proteins. The abnormal folding and aggregation of the soluble cellular prion proteins (PrP C ) into scrapie isoform (PrP Sc ) in the Central nervous system (CNS) resulted in brain damage and other neurological symptoms. Different therapeutic approaches, including stalling PrP C to PrP Sc conversion, increasing PrP Sc removal, and PrP C stabilization, for which a spectrum of compounds, ranging from organic compounds to antibodies, have been explored. Additionally, a non-PrP targeted drug strategy using serpin inhibitors has been discussed. Despite numerous scaffolds being screened for anti-prion activity in vitro , only a few were effective in vivo and unfortunately, almost none of them proved effective in the clinical studies, most likely due to toxicity and lack of permeability. Recently, encouraging results from a prion-protein monoclonal antibody, PRN100, were presented in the first human trial on CJD patients, which gives a hope for better future for the discovery of other new molecules to treat prion diseases. In this comprehensive review, we have re-visited the history and discussed various classes of anti-prion agents, their structure, mode of action, and toxicity. Understanding pathogenesis would be vital for developing future treatments for prion diseases. Based on the outcomes of existing therapies, new anti-prion agents could be identified/synthesized/designed with reduced toxicity and increased bioavailability, which could probably be effective in treating prion diseases.

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“…The toxic species in amyloid and prion diseases are generally considered to be small toxic oligomeric aggregates (Verma et al, 2015;Sengupta & Udgaonkar, 2018;Sang et al, 2019), but so far no drugs or treatments that target such aggregates have been approved against prion diseases (Lee et al, 2019;Hyeon et al, 2020;Mashima et al, 2020). Potential drug molecules may interfere with oligomer formation in various ways: by reducing production of the protein, by inhibiting its aggregation, by diverting the aggregation pathway(s) towards non-toxic forms, or by reducing the lifetime of the toxic forms, for example by promoting rapid aggregation into larger non-toxic aggregates.…”

Section: Introductionmentioning

confidence: 99%

The engineered peptide construct NCAM1-Aβ inhibits fibrillization of the human prion protein (PrP)

et al. 2022

View full text Add to dashboard Cite

In prion diseases, the prion protein (PrP) becomes misfolded and forms fibrillar aggregates that are responsible for prion infectivity and pathology. So far, no drug or treatment procedures have been approved for prion disease treatment. We have previously shown that engineered cell-penetrating peptide constructs can reduce the amount of prion aggregates in infected cells. However, the molecular mechanism underlying this effect is unknown. Here, we use atomic force microscopy (AFM) imaging to show that the amyloid aggregation and fibrillization of the human PrP protein can be inhibited by equimolar amounts of the 25 residues long engineered peptide construct NCAM1-Aβ.

show abstract

BMD42-2910, a Novel Benzoxazole Derivative, Shows a Potent Anti-prion Activity and Prolongs the Mean Survival in an Animal Model of Prion Disease

Cited by 4 publications

References 46 publications

The engineered peptide construct NCAM1-Aβ inhibits aggregation of the human prion protein (PrP)

The engineered peptide construct NCAM1-Aβ inhibits aggregation of the human prion protein (PrP)

Prion therapeutics: Lessons from the past

The engineered peptide construct NCAM1-Aβ inhibits fibrillization of the human prion protein (PrP)

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