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1. Effects of the Toxic Non-Protein Amino Acid β-Methylamino-L-Alanine (BMAA) on Intracellular Amino Acid Levels in Neuroblastoma Cells

Author

Jake P. Violi, Lisa Pu, Sercan Pravadali-Cekic, David P. Bishop, Connor R. Phillips, and Kenneth J. Rodgers

Subjects
β-methylamino-L-alanine (BMAA), L-serine, amino acid, motor neuron disease, amyotrophic lateral sclerosis, Medicine
Abstract

The cyanobacterial non-protein amino acid (AA) β-Methylamino-L-alanine (BMAA) is considered to be a neurotoxin. BMAA caused histopathological changes in brains and spinal cords of primates consistent with some of those seen in early motor neuron disease; however, supplementation with L-serine protected against some of those changes. We examined the impact of BMAA on AA concentrations in human neuroblastoma cells in vitro. Cells were treated with 1000 µM BMAA and intracellular free AA concentrations in treated and control cells were compared at six time-points over a 48 h culture period. BMAA had a profound effect on intracellular AA levels at specific time points but in most cases, AA homeostasis was re-established in the cell. The most heavily impacted amino acid was serine which was depleted in BMAA-treated cells from 9 h onwards. Correction of serine depletion could be a factor in the observation that supplementation with L-serine protects against BMAA toxicity in vitro and in vivo. AAs that could potentially be involved in protection against BMAA-induced oxidation such as histidine, tyrosine, and phenylalanine were depleted in cells at later time points.

Published
2023
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3. Misincorporation Proteomics Technologies: A Review

Author

Joel R. Steele, Carly J. Italiano, Connor R. Phillips, Jake P. Violi, Lisa Pu, Kenneth J. Rodgers, and Matthew P. Padula

Subjects
misincorporation, non protein amino acids, post translational modifications, Microbiology, QR1-502
Abstract

Proteinopathies are diseases caused by factors that affect proteoform conformation. As such, a prevalent hypothesis is that the misincorporation of noncanonical amino acids into a proteoform results in detrimental structures. However, this hypothesis is missing proteomic evidence, specifically the detection of a noncanonical amino acid in a peptide sequence. This review aims to outline the current state of technology that can be used to investigate mistranslations and misincorporations whilst framing the pursuit as Misincorporation Proteomics (MiP). The current availability of technologies explored herein is mass spectrometry, sample enrichment/preparation, data analysis techniques, and the hyphenation of approaches. While many of these technologies show potential, our review reveals a need for further development and refinement of approaches is still required.

Published
2021
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4. β-Methylamino-L-alanine-induced protein aggregation in vitro and protection by L-serine

Author

Kenneth J. Rodgers, Michael Johnson, Adam W Quinn, Joel R. Steele, Mika T. Westerhausen, Connor R Phillips, and Jake P. Violi

Subjects
chemistry.chemical_classification, Alanine, Biochemistry & Molecular Biology, biology, Endoplasmic reticulum, 0304 Medicinal and Biomolecular Chemistry, 1101 Medical Biochemistry and Metabolomics, Organic Chemistry, Clinical Biochemistry, Protein aggregation, biology.organism_classification, Biochemistry, Amino acid, Cycas micronesica, Proteostasis, chemistry, Unfolded protein response, Cysteine
Abstract

The cyanobacterial non-protein amino acid α-amino-β-methylaminopropionic acid, more commonly known as BMAA, was first discovered in the seeds of the ancient gymnosperm Cycad circinalis (now Cycas micronesica Hill). BMAA was linked to the high incidence of neurological disorders on the island of Guam first reported in the 1950s. BMAA still attracts interest as a possible causative factor in amyotrophic lateral sclerosis (ALS) following the identification of ALS disease clusters associated with living in proximity to lakes with regular cyanobacterial blooms. Since its discovery, BMAA toxicity has been the subject of many in vivo and in vitro studies. A number of mechanisms of toxicity have been proposed including an agonist effect at glutamate receptors, competition with cysteine for transport system xc_ and other mechanisms capable of generating cellular oxidative stress. In addition, a wide range of studies have reported effects related to disturbances in proteostasis including endoplasmic reticulum stress and activation of the unfolded protein response. In the present studies we examine the effects of BMAA on the ubiquitin-proteasome system (UPS) and on chaperone-mediated autophagy (CMA) by measuring levels of ubiquitinated proteins and lamp2a protein levels in a differentiated neuronal cell line exposed to BMAA. The BMAA induced increases in oxidised proteins and the increase in CMA activity reported could be prevented by co-administration of L-serine but not by the two antioxidants examined. These data provide further evidence of a protective role for L-serine against the deleterious effects of BMAA.

Published
2021

5. β-Methylamino-L-alanine-induced protein aggregation in vitro and protection by L-serine

Author

Adam W, Quinn, Connor R, Phillips, Jake P, Violi, Joel R, Steele, Michael S, Johnson, Mika T, Westerhausen, and Kenneth J, Rodgers

Subjects
Proteasome Endopeptidase Complex, Cyanobacteria Toxins, Ubiquitin, Amino Acids, Diamino, Cell Differentiation, Chaperone-Mediated Autophagy, Antioxidants, Neuroblastoma, Oxidative Stress, Protein Aggregates, Lysosomal-Associated Membrane Protein 2, Excitatory Amino Acid Agonists, Serine, Tumor Cells, Cultured, Humans
Abstract

The cyanobacterial non-protein amino acid α-amino-β-methylaminopropionic acid, more commonly known as BMAA, was first discovered in the seeds of the ancient gymnosperm Cycad circinalis (now Cycas micronesica Hill). BMAA was linked to the high incidence of neurological disorders on the island of Guam first reported in the 1950s. BMAA still attracts interest as a possible causative factor in amyotrophic lateral sclerosis (ALS) following the identification of ALS disease clusters associated with living in proximity to lakes with regular cyanobacterial blooms. Since its discovery, BMAA toxicity has been the subject of many in vivo and in vitro studies. A number of mechanisms of toxicity have been proposed including an agonist effect at glutamate receptors, competition with cysteine for transport system x

Published
2021

6. Misincorporation Proteomics Technologies: A Review

Author

Jake P. Violi, Matthew P. Padula, Lisa Pu, Connor R Phillips, Carly J. Italiano, Joel R. Steele, and Kenneth J. Rodgers

Subjects
misincorporation, Computer science, Clinical Biochemistry, post translational modifications, lcsh:QR1-502, Review, Computational biology, Proteomics, Biochemistry, lcsh:Microbiology, Structural Biology, Posttranslational modification, Molecular Biology, Peptide sequence, non protein amino acids
Abstract

Proteinopathies are diseases caused by factors that affect proteoform conformation. As such, a prevalent hypothesis is that the misincorporation of noncanonical amino acids into a proteoform results in detrimental structures. However, this hypothesis is missing proteomic evidence, specifically the detection of a noncanonical amino acid in a peptide sequence. This review aims to outline the current state of technology that can be used to investigate mistranslations and misincorporations whilst framing the pursuit as Misincorporation Proteomics (MiP). The current availability of technologies explored herein is mass spectrometry, sample enrichment/preparation, data analysis techniques, and the hyphenation of approaches. While many of these technologies show potential, our review reveals a need for further development and refinement of approaches is still required.

Published
2020

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