Elias Khayat scite author profile

The consequences of phosphorylation of the Aβ25−35 peptide at the position Ser26 on its aggregation have not been examined. To investigate them, we performed all-atom replica exchange simulations probing the binding of phosphorylated Aβ25−35 (pAβ25−35) peptides to the dimyristoyl phosphatidylcholine (DMPC) bilayer and their subsequent aggregation. As a control, we used our previous study of unmodified peptides. We found that phosphorylation moderately reduces the helical propensity in pAβ25−35 and its binding affinity to the DMPC bilayer. Phosphorylation preserves the bimodal binding observed for unmodified Aβ25−35, which features a preferred inserted state and a less probable surface bound state. Phosphorylation also retains the inserted dimer with a head-to-tail helical aggregation interface as the most thermodynamically stable state. Importantly, this post-translation modification strengthens interpeptide interactions by adding a new aggregation "hot spot" created by cross-bridging phosphorylated Ser26 with water, cationic ions, or Lys28. The cross-bridging constitutes the molecular mechanism behind most structural phosphorylation effects. In addition, phosphorylation eliminates pAβ25−35 monomers and diversifies the pool of aggregated species. As a result, it changes the binding and aggregation mechanism by multiplying pathways leading to stable inserted dimers. These findings offer a plausible molecular rationale for experimental observations, including enhanced production of low molecular weight oligomers and cytotoxicity of phosphorylated Aβ peptides.

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Met35 Oxidation Hinders Aβ25-35 Peptide Aggregation within the Dimyristoylphosphatidylcholine Bilayer

Khayat

Lockhart

Delfing

et al. 2021

ACS Chem. Neurosci.

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Using all-atom explicit solvent replica exchange molecular dynamics simulations, we studied the aggregation of oxidized (ox) Aβ25-35 peptides into dimers mediated by the zwitterionic dimyristoylphosphatidylcholine (DMPC) lipid bilayer. By comparing oxAβ25-35 aggregation with that observed for reduced and phosphorylated Aβ25-35 peptides, we elucidated plausible impact of posttranslational modifications on cytotoxicity of Aβ peptides involved in Alzheimer's disease. We found that Met35 oxidation reduces helical propensity in oxAβ25-35 peptides bound to the lipid bilayer and enhances backbone fluctuations. These factors destabilize the wild-type head-to-tail dimer interface and lower the aggregation propensity. Met35 oxidation diversifies aggregation pathways by adding monomeric species to the bound conformational ensemble. The oxAβ25-35 dimer becomes partially expelled from the DMPC bilayer and as a result inflicts limited disruption to the bilayer structure compared to wild-type Aβ25-35. Interestingly, the effect of Ser26 phosphorylation is largely opposite, as it preserves the wild-type head-to-tail aggregation interface and strengthens, not weakens, aggregation propensity. The differing effects can be attributed to the sequence locations of these post-translational modifications, since in contrast to Ser26 phosphorylation, Met35 oxidation directly affects the wild-type C-terminal aggregation interface. A comparison with experimental data is provided.

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Diagnosing growth in low-grade gliomas with and without longitudinal volume measurements: A retrospective observational study

et al. 2019

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Background Low-grade gliomas cause significant neurological morbidity by brain invasion. There is no universally accepted objective technique available for detection of enlargement of low-grade gliomas in the clinical setting; subjective evaluation by clinicians using visual comparison of longitudinal radiological studies is the gold standard. The aim of this study is to determine whether a computer-assisted diagnosis (CAD) method helps physicians detect earlier growth of low-grade gliomas. Methods and findings We reviewed 165 patients diagnosed with grade 2 gliomas, seen at the University of Alabama at Birmingham clinics from 1 July 2017 to 14 May 2018. MRI scans were collected during the spring and summer of 2018. Fifty-six gliomas met the inclusion criteria, including 19 oligodendrogliomas, 26 astrocytomas, and 11 mixed gliomas in 30 males and 26 females with a mean age of 48 years and a range of follow-up of 150.2 months (difference between highest and lowest values). None received radiation therapy. We also studied 7 patients with an imaging abnormality without pathological diagnosis, who were clinically stable at the time of retrospective review (14 May 2018). This study compared growth detection by 7 physicians aided by the CAD method with retrospective clinical reports. The tumors of 63 patients (56 + 7) in 627 MRI scans were digitized, including 34 grade 2 gliomas with radiological progression and 22 radiologically stable grade 2 gliomas. The CAD method consisted of tumor segmentation, computing volumes, and pointing to growth by the online abrupt change-of-point method, which considers only past measurements. Independent scientists have evaluated the segmentation method. In 29 of the 34 patients with progression, the median time to growth detection was only 14 months for CAD compared to 44 months for current standard of care radiological evaluation ( p < 0.001). Using CAD, accurate detection of tumor enlargement was possible with a median of only 57% change in the tumor volume as compared to a median of 174% change of volume necessary to diagnose tumor growth using standard of care clinical methods ( p < 0.001). In the radiologically stable group, CAD facilitated growth detection in 13 out of 22 patients. CAD did not detect growth in the imaging abnormality group. The main limitation of this study was its retrospective design; nevertheless, the results depict the current state of a gold standard in clinical practice that allowed a significant increase in tumor volumes from baseline before detection. Such large increases in tumor volume would not be permitted in a prospective design. The number of glioma patients ( n = 56) is a limitation; however, it is equivalent to the number of patients in phase II clinical trials. Conclusions The current practice of visual comparison of longitudinal MRI scans is associated with significant delays in detecting g...

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Do Cholesterol and Sphingomyelin Change the Mechanism of Aβ_25–35 Peptide Binding to Zwitterionic Bilayer?

Smith

Khayat

Lockhart

et al. 2019

J. Chem. Inf. Model.

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Using replica exchange with solute tempering all-atom molecular dynamics, we studied the equilibrium binding of Aβ25–35 peptide to the ternary bilayer composed of an equimolar mixture of dimyristoylphosphatidylcholine (DMPC), N-palmitoylsphingomyelin (PSM), and cholesterol. Binding of the same peptide to the pure DMPC bilayer served as a control. Due to significant C-terminal hydrophobic moment, binding to the ternary and DMPC bilayers promotes helical structure in the peptide. For both bilayers a polarized binding profile is observed, in which the N-terminus anchors to the bilayer surface, whereas the C-terminus alternates between unbound and inserted states. Both ternary and DMPC bilayers feature two Aβ25–35 bound states, surface bound, S, and inserted, I, separated by modest free energy barriers. Experimental data are in agreement with our results but indicate that cholesterol impact is Aβ fragment dependent. For Aβ25–35, we predict that its binding mechanism is independent of the inclusion of PSM and cholesterol into the bilayer.

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A Comparative Analysis of Functional and Patient-Reported Outcomes Following Lisfranc and Chopart Amputations in High-Risk Limb Salvage Patients

Berger

Spoer

Huffman

et al. 2023

The Journal of Foot and Ankle Surgery

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Elias Khayat

Phosphorylation Promotes Aβ25–35 Peptide Aggregation within the DMPC Bilayer

Met35 Oxidation Hinders Aβ25-35 Peptide Aggregation within the Dimyristoylphosphatidylcholine Bilayer

Diagnosing growth in low-grade gliomas with and without longitudinal volume measurements: A retrospective observational study

Do Cholesterol and Sphingomyelin Change the Mechanism of Aβ_25–35 Peptide Binding to Zwitterionic Bilayer?

A Comparative Analysis of Functional and Patient-Reported Outcomes Following Lisfranc and Chopart Amputations in High-Risk Limb Salvage Patients

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Elias Khayat

Phosphorylation Promotes Aβ25–35 Peptide Aggregation within the DMPC Bilayer

Met35 Oxidation Hinders Aβ25-35 Peptide Aggregation within the Dimyristoylphosphatidylcholine Bilayer

Diagnosing growth in low-grade gliomas with and without longitudinal volume measurements: A retrospective observational study

Do Cholesterol and Sphingomyelin Change the Mechanism of Aβ25–35 Peptide Binding to Zwitterionic Bilayer?

A Comparative Analysis of Functional and Patient-Reported Outcomes Following Lisfranc and Chopart Amputations in High-Risk Limb Salvage Patients

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Product

Resources

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Do Cholesterol and Sphingomyelin Change the Mechanism of Aβ_25–35 Peptide Binding to Zwitterionic Bilayer?