Individual Amino Acid Supplementation Can Improve Energy Metabolism and Decrease ROS Production in Neuronal Cells Overexpressing Alpha-Synuclein

Delic, Vedad, Griffin, Jeddidiah W.D., Zivkovic, Sandra, Zhang, Yumeng, Phan, Tam Anh, Gong, Henry, Chaput, Dale, Reynes, Christian, Dinh, Vinh B., Cruz, Josean, Cvitkovic, Eni, Placides, Devon, Frederic, Ernide, Mirzaei, Hamed, Stevens, Stanley M., Jinwal, Umesh, Lee, Daniel C., Bradshaw, Patrick C.

01 September 2017

Parkinson’s disease (PD) is a neurodegenerative disorder characterized by alpha-synuclein accumulation and loss of dopaminergic neurons in the substantia nigra (SN) region of the brain. Increased levels of alpha-synuclein have been shown to result in loss of mitochondrial electron transport chain complex I activity leading to increased reactive oxygen species (ROS) production. WT alpha-synuclein was stably overexpressed in human BE(2)-M17 neuroblastoma cells resulting in increased levels of an alpha-synuclein multimer, but no increase in alpha-synuclein monomer levels. Oxygen consumption was decreased by alpha-synuclein overexpression, but ATP levels did not decrease and ROS levels did not increase. Treatment with ferrous sulfate, a ROS generator, resulted in decreased oxygen consumption in both control and alpha-synuclein overexpressing cells. However, this treatment only decreased ATP levels and increased ROS production in the cells overexpressing alpha-synuclein. Similarly, paraquat, another ROS generator, decreased ATP levels in the alpha-synuclein overexpressing cells, but not in the control cells, further demonstrating how alpha-synuclein sensitized the cells to oxidative insult. Proteomic analysis yielded molecular insights into the cellular adaptations to alpha-synuclein overexpression, such as the increased abundance of many mitochondrial proteins. Many amino acids and citric acid cycle intermediates and their ester forms were individually supplemented to the cells with l-serine, l-proline, l-aspartate, or l-glutamine decreasing ROS production in oxidatively stressed alpha-synuclein overexpressing cells, while diethyl oxaloacetate or l-valine supplementation increased ATP levels. These results suggest that dietary supplementation with individual metabolites could yield bioenergetic improvements in PD patients to delay loss of dopaminergic neurons.

alpha-synuclein

amino acids

citric acid cycle

iron

metabolic therapy

mitochondrial

Parkinson’s disease

proteomics

Biomedical Sciences

Conformational changes of alpha-synuclein, ABC and ECF transporters observed by high pressure EPR and DEER

Sippach, Michael

09 February 2018

In this work two overall subjects were addressed. 1. In recent years high pressure perturbance has become a tool to investigate the folding energy landscape, the volumetric properties and the conformational equilibria of proteins. Conformational states which are not populated at ambient conditions thus become accessible to spectroscopic characterization. In this work a high pressure application was combined with EPR spectroscopy to investigate three spin labeled proteins, BSA from Bos taurus, HisJ from Salmonella enterica serovar Typhimurium and α-synuclein from Homo sapiens. The goal of these studies was to comprehend the influence of pressure on the respective EPR spectra and to identify changes in conformational equilibria and volumetric properties of the investigated proteins. Studies on BSA revealed a negative activation volume for rotational diffusion of the spin labeled site. Moreover, a rotameric equilibrium was derived from the pressure-dependent side chain dynamics and a correlating negative partial molar volume was observed, indicating a shift of the rotameric equilibrium to lesser order. In this regard it was also shown that a chaotropic medium (guanidine hydrochloride) supports the pressure-dependent effect. Spin labeled sites in the substrate binding protein HisJ revealed to be highly influenceable by low pressures between ambient conditions and 200 bar. Pressurization induced oligomerization and precipitation of the protein. Substrate binding revealed differences in pressure-dependence with regard to a decreased precipitation effect but not in relation to oligomerization. The natively unfolded protein α-synuclein plays a key role in Parkinson´s disease and is known for forming β-sheet rich aggregates, so called amyloid fibrils. The experimental data of this work revealed that hydrostatic pressure can induce a non-amyloid aggregation of monomeric α-synuclein which produces an unspecific oligomer. Furthermore, it was shown that α-synuclein amyloid fibrils can be dissolved by hydrostatic pressure. From the pressure dependent conformational equilibrium between the monomer and the fibril form the change of the partial molar volume of the investigated site was determined. 2. The second subject of this work was focused on different import systems, ATP-binding cassette (ABC) transporters and Energy-Coupling-Factor (ECF) transporters, for amino acids, vitamins and metal ions in prokaryotes. Studies on one bacterial ABC and two ECF transporter systems from two different organisms, the histidine ABC-type transporter HisQMP2 from Salmonella enterica serovar Typhimurium, the biotin ECF-type importer BioMNY from Rhodobacter capsulatus and the cobalt-specific ECF-type transporter CbiMNQO from Rhodobacter capsulatus, were performed using DEER and cw EPR spectroscopy. The goal of the studies on HisQMP2 and BioMNY was to shed light on conformations and dynamics connected to their transporter function. Studies on CbiMNQO aimed at the detection of the substrate in the transporter´s substrate binding unit. For HisQMP2 transport cycle dependent conformational changes and interactions with the substrate binding protein HisJ were revealed. Three different distance values between sites H101R1 and H101’R1 in the transporter´s nucleotide binding domains were assigned to the apo-, the ATP-bound and the posthydrolysis state. It was shown that the closed conformation of the nucleotide binding domains is achieved only in the presence of the ligand-bound HisJ which indicates a transmembrane communication of the association of HisJ to the transporter. Furthermore, interspin distances were determined between sites D86R1-A96R1, C197R1-C104R1 and A118R1-G123R1 in the transmembrane domains HisQ and HisM revealing distinguishable conformational states which correlate to the different states of the nucleotide binding sites during the hydrolysis cycle. Measured interspin distances between HisJ and HisM in the HisQMP2 complex showed that interaction only occurred in the closed state of the HisP2 dimer, the nucleotide bound state. Two different, substrate-dependent interactions between site G24R1 in HisJ and site A96R1 in HisQMP2 were observed, revealing that the substrate-free and substrate-bound form of HisJ both associate with HisQMP2. Distance measurements between sites G24R1 and T151R1 in HisJ in the presence and absence of its substrate revealed interspin distance changes that correlate with the proteins open and closed conformation. Investigations on the ECF transporter BioMNY, reconstituted into nanodiscs, revealed a closure and reopening of the nucleotide binding domains between sites H87R1 and H87’R1 using DEER spectroscopy which delivered interspin distance values that correlate with the apo-, the ATP-bound and the posthydrolysis state of the transporter. Further experiments were aimed to shed light on the transporters substrate-translocation mechanism with regard to the so called toppling over mechanism. Unfortunately, the experiments of this work were not able to give a distinct answer with respect to the proposed model because of the transmembrane domains tendency to oligomerize when reconstituted into nanodiscs. In this work we showed that substrate uptake by the substrate binding unit CbiM of the cobalt-specific ECF transporter CbiMNQO depends on the presence of the small transmembrane protein CbiN. Measurements of spin labeled CbiMN in detergent showed oligomerization of CbiM.

High Pressure

ABC transporter

ECF transporter

Alpha-synuclein

ddc:530

ddc:570

Bifluorescent Analysis of ⍺-Synuclein Aggregation In Vivo

Mau, Kianna

04 September 2020

Parkinson’s disease is an incurable neurodegenerative disease characterized by motor deficits, owing to dopaminergic denervation in the nigrostriatal pathway. The abnormal formation of hallmark Lewy bodies underlies the disease process. The pre-synaptic protein alpha- synuclein (⍺-syn) has prion-like properties arising from its propensity to propagate, seed misfolding, and self-aggregate. Pathogenesis is postulated to arise in olfactory and enteric regions, exploiting connected neuronal pathways to ultimately propagate to the substantia nigra pars compacta. There is little known about the earliest stages of ⍺-syn aggregation and its prion-like propagation mechanisms. Bimolecular fluorescence complementation of ⍺-syn aggregates has allowed us to directly visualize aggregation in transgenic mice and mice transduced with an adeno-associated virus vector. Although our transgenic mice expressed BiSyn in a mosaic fashion that limited utility, we were successful in transducing neurons in the mouse striatum. This work has validated the AAV2/9-CMV-BiSyn approach as groundwork for future systematic studies.

Parkinson's disease

Alpha-synuclein

Bimolecular fluorescence complementation

Position effect variegation

Adeno-associated virus

Cellular alterations of the human retina in Parkinson’s disease and their use as early biomarkers

Ortuño-Lizarán, Isabel

19 July 2019

En la presente Tesis Doctoral se describen los cambios celulares que ocurren en la retina en la enfermedad de Parkinson y su posible uso como biomarcadores tempranos de la enfermedad. Los pacientes con enfermedad de Parkinson poseen acumulaciones de alfa sinucleína fosforilada en la retina similares a las que se encuentran en el cerebro de los mismos pacientes. De hecho, la cantidad de alfa-sinucleína fosforilada en la retina correlaciona con la cantidad de alfa-sinucleína fosforilada en el cerebro, con el estadio de progresión de la enfermedad y con la severidad de los síntomas motores. Además, en la retina de enfermos de párkinson se describe una degeneración de las células ganglionares melanopsínicas de la retina, lo que podría explicar las alteraciones en los ritmos circadianos y los desórdenes del sueño que aparecen en pacientes. Finalmente, también se muestra la degeneración de las células amacrinas dopaminérgicas, que se reducen en un 45%. Este fallo en el sistema dopaminérgico de la retina provoca alteraciones morfológicas en las células amacrinas AII, sus principales postsinápticas, y podría explicar algunas alteraciones visuales descritas en la enfermedad como la disminución de la sensibilidad al contraste o de la agudeza visual. En global, los resultados muestran que la retina reproduce los procesos degenerativos que ocurren en el cerebro en la enfermedad de Parkinson y, por tanto, que es un tejido idóneo para el estudio de la enfermedad. Además, el estudio de la retina aporta información sobre el estadio de la enfermedad y puede ser empleado como un biomarcador temprano que ayude al diagnóstico y seguimiento de la misma.

Retina

Parkinson’s disease

Human

Alpha-synuclein

Melanopsin retinal ganglion cells

Dopaminergic amacrine cells

Biología Celular

Carnosine as a Mechanism-based Intervention in the Thy1-aSyn Mouse Model of Parkinson’s Disease: Neurobehavioral, Biochemical, and Bioinformatic Analyses

Bermúdez, Mei-Ling

January 2018

No description available.

Toxicology

Parkinsons disease

Alpha-synuclein

Intranasal

Carnosine

Thy-aSyn mice

Mitochondria

In-Cell NMR of Neurodegenerative Proteins

Splaine, Christopher

02 June 2020

No description available.

Biology

Chemistry

Cellular Biology

Biochemistry

Incell NMR

amyloid beta

alpha synuclein

Alzheimers

Parkinsons disease

The Development of PET Imaging Agents for Neurodegenerative Disorders

Kinstedt, Christine Morgan

08 June 2020

No description available.

Chemistry

Biochemistry

Organic Chemistry

Chalcones

PET Imaging Agents

Neurodegenerative Disorders

Tau

Alpha-synuclein

CHEMICAL AND GENETIC SCREENING APPLICATIONS OF A MICROFLUIDIC ELECTROTAXIS ASSAY USING NEMATODE CAENORHABDITIS ELEGANS / SCREENING APPLICATIONS OF NEMATODE MICROFLUIDIC ELECTROTAXIS

Tong, Justin

11 1900

Combining the nematode Caenorhabditis elegans with novel microfluidic technology has produced a phenotypic movement assay that is at once rapid, sensitive, and low-cost. The method is based on the neurophysiologic phenomenon of worms exhibiting robust, continuous, directed locomotion in response to mild electric fields inside a microchannel. As we demonstrate with the studies reported herein, our microfluidic electrotaxis platform is a unique tool for studying the effects of environmental and genetic manipulations on C. elegans’ movement behaviour, which in turn indicates the state of the organism’s neuronal and muscular systems. In one initiative to develop an inexpensive biosensor, we use the setup to measure the response of worms to common environmental pollutants. Results indicate that worms’ electrotactic swimming behaviour is particularly susceptible to metal salts. A comparison with traditional assays measuring fecundity, growth, and lifespan reveals that electrotactic speed shows a comparable level of sensitivity as a toxicity endpoint. Another study demonstrates that worms expressing a mutant form of α-synuclein, a familial Parkinson’s disease-related protein, show deficits in electrotactic swimming speed that coincide with dopaminergic neuron damage. We further show that both the electrotaxis and neuronal phenotypes can be ameliorated by treatment with curcumin, a putative neuroprotective agent. We have also used the platform to investigate the effects of other environmental and genetic stresses on electrotactic behaviour. Our findings indicate that the response can withstand many different insults but is affected by stresses that induce the mitochondrial and ER unfolded protein responses, which themselves play roles in preserving electrotactic swimming behaviour alongside the heat shock response. These data expand our knowledge of how the motor output component of C. elegans’ electrotactic response is perturbed by environmental and genetic manipulations, and also support the utility of microfluidic electrotaxis as a functional output of nematode locomotory circuits in a multitude of contexts. / Thesis / Doctor of Science (PhD)

caenorhabditis elegans

electrotaxis

microfluidics

dopamine

alpha-synuclein

toxicology

unfolded protein response

Preserved structural property after amplification of alpha-synuclein aggregates from brains of synucleinopathies / シヌクレイノパチー脳におけるα-シヌクレイン凝集体の増幅と増幅後の構造特性 / シヌクレイノパチー ノウ ニオケル α-シヌクレイン ギョウシュウタイ ノ ゾウフク ト ゾウフクゴ ノ コウゾウ トクセイ

吉永 早希, Saki Yoshinaga

22 March 2020

神経変性疾患で蓄積する異常タンパク質の1つであるα-synは、PD、DLBおよびMSAの脳内に主に蓄積する。DLBやMSAの患者脳から解析可能な量のα-syn凝集体の増幅に成功した。増幅前後の凝集体のプロテイナーゼKコアのMS分析結果から、増幅による変化はないもののマウスとヒトのα-syn凝集体で切断パターンが異なることがわかった。これらの結果から、この方法が神経変性疾患の異常タンパク質研究の発展に貢献できることを示唆した。 / Pathological proteins related to neurodegenerative diseases are misfolded, aggregating to form amyloid fibrils. One of the pathological proteins, α-syn, accumulates in the brains of PD, DLB and MSA. We first performed amplification of α-syn aggregates. We successfully amplified enough α-syn aggregates derived from α-syncleinopathies. We found that the MS analysis results of proteinase K-resistant cores of the aggregates before and after the amplification differ between mouse and human α-syn aggregates. The results suggest that structural properties of amplified α-syn fibrils are preserved and these methods can be applicable in the study of pathological proteins of the neurodegenerative disorders. / 博士(理学) / Doctor of Philosophy in Science / 同志社大学 / Doshisha University

alpha-synuclein

synucleinopathy

seeding reaction

mass spectrometry

Intranasal carnosine protects against alpha-synuclein accumulation in the substantia nigra and motor dysfunction in the Thy1-aSyn mouse model of Parkinson’s disease.

Brown, Josephine M., B.S.

January 2019

No description available.

Toxicology

intranasal

alpha-synuclein

carnosine

Thy1-aSyn mouse model

Parkinsons disease

motor dysfunction