Intrinsic property of phenylalanine to trigger protein aggregation and hemolysis has a direct relevance to phenylketonuria

Anand, Bibin G.; Dubey, Kriti; Shekhawat, Dolat Singh; Kar, Karunakar

doi:10.1038/s41598-017-10911-z

Cited by 66 publications

(192 citation statements)

References 41 publications

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Section: Seeding Of Proteins By Metabolite Assembliesmentioning

confidence: 99%

“…Recent studies demonstrated that metabolites could cross-seed proteins [ 23 ]. Phenylalanine formed fibrils initiated the aggregation of several non-amyloidogenic proteins under physiological conditions [ 23 ]. Globular proteins, including lysozyme, serum albumin, insulin, myoglobin and cytochrome c , spontaneously self-assembled into amyloid fibrils in the presence of phenylalanine seeds [ 23 ].…”

Section: Seeding Of Proteins By Metabolite Assembliesmentioning

confidence: 99%

“…Phenylalanine formed fibrils initiated the aggregation of several non-amyloidogenic proteins under physiological conditions [ 23 ]. Globular proteins, including lysozyme, serum albumin, insulin, myoglobin and cytochrome c , spontaneously self-assembled into amyloid fibrils in the presence of phenylalanine seeds [ 23 ]. Another observation was the accelerated aggregation of a soluble mixture of amino acids following the addition of phenylalanine fibrils [ 23 ].…”

Section: Seeding Of Proteins By Metabolite Assembliesmentioning

confidence: 99%

“…Globular proteins, including lysozyme, serum albumin, insulin, myoglobin and cytochrome c , spontaneously self-assembled into amyloid fibrils in the presence of phenylalanine seeds [ 23 ]. Another observation was the accelerated aggregation of a soluble mixture of amino acids following the addition of phenylalanine fibrils [ 23 ]. Additional study demonstrated the cross-seeding of proteins by homogentisic acid (HGA), a metabolite related to alkaptonuria [ 24 ], a rare IEM disorder which was lately classified as secondary amyloidosis.…”

Section: Seeding Of Proteins By Metabolite Assembliesmentioning

confidence: 99%

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Seeding of proteins into amyloid structures by metabolite assemblies may clarify certain unexplained epidemiological associations

et al. 2018

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The accumulation of various metabolites appears to be associated with diverse human diseases. However, the aetiological link between metabolic alteration and the observed diseases is still elusive. This includes the correlation between the abnormally high levels of homocysteine and quinolinic acid in Alzheimer's disease, as well as the accumulation of oncometabolites in malignant processes. Here, we suggest and discuss a possible mechanistic insight into metabolite accumulation in conditions such as neurodegenerative diseases and cancer. Our hypothesis is based on the demonstrated ability of metabolites to form amyloid-like structures in inborn error of metabolism disorders and the potential of such metabolite amyloids to promote protein aggregation. This notion can provide a new paradigm for neurodegeneration and cancer, as both conditions were linked to loss of function due to protein aggregation. Similar to the well-established observation of amyloid formation in many degenerative disorders, the formation of amyloids by tumour-suppressor proteins, including p53, was demonstrated in malignant states. Moreover, this new paradigm could fill the gap in understanding the high occurrence of specific types of cancer among genetic error of metabolism patients. This hypothesis offers a fresh view on the aetiology of some of the most abundant human maladies and may redirect the efforts towards new therapeutic developments.

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Section: Seeding Of Proteins By Metabolite Assembliesmentioning

confidence: 99%

Section: Seeding Of Proteins By Metabolite Assembliesmentioning

confidence: 99%

Section: Seeding Of Proteins By Metabolite Assembliesmentioning

confidence: 99%

Section: Seeding Of Proteins By Metabolite Assembliesmentioning

confidence: 99%

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Seeding of proteins into amyloid structures by metabolite assemblies may clarify certain unexplained epidemiological associations

et al. 2018

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“…Eventually it was demonstrated by Adler-Abramovich et al that even unmodified monomeric Phe is capable of forming fibrillar aggregates (Adler-Abramovich et al, 2012), which share similarities to amyloids. The amyloidogenic nature of Phe fibrils were supported by experimental data, showing the presence of beta-sheet conformation (by CD) (Smith et al, 2008), and other amyloid-specific properties, such as ThT and Congo Red binding ability and even seeding potential (Singh et al, 2014;Shaham-Niv et al, 2015;Anand et al, 2017). Different models of aggregate assembly and structure types were also presented.…”

Section: Introductionmentioning

confidence: 77%

Peer Review #1 of "Emergence of visible light optical properties of L-phenylalanine aggregates (v0.2)"

2019

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The ability of phenylalanine to form fibrillar nanostructures was demonstrated on multiple occasions and such an oligomerization reaction could be the cause of cytotoxicity in patients with phenylketonuria. These findings were supported by claims that Lphenylalanine (Phe) fibrils have amyloid properties and can be detected using thioflavin T (ThT) fluorescence assay. However, a part of Phe aggregation studies reported the opposite data, suggesting no amyloid structures to be formed. Due to the contradicting reports, the amyloid nature of Phe aggregates remains uncertain. In this work we tested Phe aggregation under conditions where amyloid formation was previously reported. We show the emergence of Phe aggregates with visible light optical properties that overlap with the spectra of dyes used in amyloid fibril assays, which could lead to false-positive identifications.

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Molecular Engineering of Bio‐Assemblies: Prospects and Design Rules for Sustainable, Wearable Electromechanical Materials

Guerin

Cazade

O’Donnell

et al. 2023

Supramolecular Nanotechnology

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Intrinsic property of phenylalanine to trigger protein aggregation and hemolysis has a direct relevance to phenylketonuria

Cited by 66 publications

References 41 publications

Seeding of proteins into amyloid structures by metabolite assemblies may clarify certain unexplained epidemiological associations

Seeding of proteins into amyloid structures by metabolite assemblies may clarify certain unexplained epidemiological associations

Peer Review #1 of "Emergence of visible light optical properties of L-phenylalanine aggregates (v0.2)"

Molecular Engineering of Bio‐Assemblies: Prospects and Design Rules for Sustainable, Wearable Electromechanical Materials

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