Alzheimer’s Disease: A Heme–Aβ Perspective

Ghosh, Chandradeep; Seal, Manas; Mukherjee, Soumya; Dey, Somdatta Ghosh

doi:10.1021/acs.accounts.5b00102

Cited by 65 publications

(81 citation statements)

References 76 publications

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“…[51][52][53] Moreover, heme binding to amyloid-β peptides and the altered heme homeostasis in Alzheimer's disease have also been demonstrated. 50,54 There are serious lacuna, however, in understanding the chemical nature of hemin-peptide and bile pigment-peptide interactions, which instigated us to study how these compounds affect the secondary structure of intrinsically disordered model peptides. Our work supplies direct spectroscopic evidences on the complex, sequence-dependent, significantly different structure modifying ability of hemin and its natural derivatives mediated by hydrophobic (Trp-porphyrin) and most likely ionic (Lys/Arg-propionate) forces.…”

Section: Discussionmentioning

confidence: 99%

Hemin and bile pigments are the secondary structure regulators of intrinsically disordered antimicrobial peptides

et al. 2017

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The interaction of protoporphyrin compounds of human origin with the major bee venom component melittin (26 a.a., Z +6) and its hybrid derivative (CM15, 15 a.a., Z +6) were studied by a combination of various spectroscopic methods. Throughout a two-state, concentration-dependent process, hemin and its metabolites (biliverdin, bilirubin, bilirubin ditaurate) increase the parallel β-sheet content of the natively unfolded melittin, suggesting the oligomerization of the peptide chains. In contrast, α-helix promoting effect was observed with the also disordered but more cationic CM15. According to fluorescence quenching experiments, the sole Trp residue of melittin is the key player during the binding, in the vicinity of which the first pigment molecule is accommodated presumably making indole-porphyrin π-π stacking interaction. As circular dichroism titration data suggest, cooperative association of additional ligands subsequently occurs, resulting in multimeric complexes with an apparent dissociation constant ranged from 20 to 65 μM. Spectroscopic measurements conducted with the bilirubin catabolite urobilin and stercobilin refer to the requirement of intact dipyrrinone moieties for inducing secondary structure transformations. The binding topography of porphyrin rings on a model parallel β-sheet motif was evaluated by absorption spectroscopy and computational modeling showing a slipped-cofacial binding mode responsible for the red shift and hypochromism of the Soret band. Our results may aid to recognize porphyrin-responsive binding motifs of biologically relevant, intrinsically disordered peptides and proteins, where transient conformations play a vital role in their functions.

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Section: Discussionmentioning

confidence: 99%

Hemin and bile pigments are the secondary structure regulators of intrinsically disordered antimicrobial peptides

et al. 2017

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“…One of the residues of H13 and H14 in Aβ has been suggested as a heme‐binding‐ligand . Peroxidase reactions promoted from Aβ‐heme complexes are facilitated by the presence of N‐terminal residues R5 and Y10, residues that are absent in the Aβ peptide naturally expressed in rodents . Copper ion interaction is not compromised when simultaneously present with heme molecules .…”

Section: Metal Ion Interactions Of the Aβ Peptidementioning

confidence: 99%

“…[71] Peroxidase reactions promoted from Ab-heme complexes are facilitated by the presence of N-terminal residues R5 and Y10, residues that are absent in the Ab peptide naturally expressed in rodents. [72] Copper ion interaction is not compromised when simultaneously present with heme molecules. [73] Ab fibril formation is inhibited in the presence of heme, and mutational studies indicate contributions from both iron and porphyrin interactions.…”

Section: Ironmentioning

confidence: 99%

The Amyloid‐β Peptide in Amyloid Formation Processes: Interactions with Blood Proteins and Naturally Occurring Metal Ions

Wallin

Luo

Jarvet

et al. 2016

Israel Journal of Chemistry

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This review describes interactions between the amyloid‐β peptide (Aβ) involved in Alzheimer's disease (AD) and endogenous metal ions and proteins, with an emphasis on future potential drug therapies and targets. AD is characterised by loss of neurons, memory, and cognitive functions, and by formation of cerebral senile plaque deposits. These plaques consist mainly of aggregated Aβ peptides. AD pathology includes a) on the molecular level imbalanced concentrations of Aβ peptides and metal ions, and formation of amyloid structures, and b) on the physiological level a combination of inflammatory responses and oxidative stress effects causing neuronal death. Interestingly, certain blood proteins and metal ions can affect the Aβ amyloid aggregation process. These interactions are the topics of the present review. A deeper understanding of these interactions could facilitate new therapeutic strategies against AD. Previous therapeutic approaches and trials are also briefly described.

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“…The interaction of hemin and other water-soluble phthalocyanines, corroles, and porphyrins with Ab has been noted. [29][30][31][32] We thus envisaged that coupling the Ab-recognition properties of metalloporphyrins with the biological activity of metallotexaphyrins would allow for MRI recognition of Ab species with attendant utility as a potential metalloantioxidant therapeutic ( Figure 2). As detailed further below, we have found that metallotexaphyrins, in particular MMn, interact with amyloid constructs, as inferred from ultraviolet-visible (UV-vis), fluorescence, and circular dichroism (CD) spectroscopies, as well as MRI studies.…”

Section: Introductionmentioning

confidence: 99%

Metallotexaphyrins as MRI-Active Catalytic Antioxidants for Neurodegenerative Disease: A Study on Alzheimer’s Disease

Brewster

Harvey

Zafar

et al. 2020

Chem

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Sessler et al. have studied manganese(II) texaphyrin as a catalytic metalloantioxidant theranostic agent for the detection of Ab aggregates. A series of in vitro and in vivo analyses allowed for the inference that metallotexaphyrins could be used for MRI-based detection of Ab biomarkers. In vitro and cellularbased assays coupled with mechanistic analysis demonstrated an efficacious protective effect against oxidative and nitrative damage. The present results could thus guide future efforts in developing new theranostic modalities for use in neurodegenerative disease.

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Alzheimer’s Disease: A Heme–Aβ Perspective

Cited by 65 publications

References 76 publications

Hemin and bile pigments are the secondary structure regulators of intrinsically disordered antimicrobial peptides

Hemin and bile pigments are the secondary structure regulators of intrinsically disordered antimicrobial peptides

The Amyloid‐β Peptide in Amyloid Formation Processes: Interactions with Blood Proteins and Naturally Occurring Metal Ions

Metallotexaphyrins as MRI-Active Catalytic Antioxidants for Neurodegenerative Disease: A Study on Alzheimer’s Disease

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