Your search keyword '"Irati Bastero Acha"' showing total 3 results

1. Fiber deprivation and microbiome-borne curli shift gut bacterial populations and accelerate disease in a mouse model of Parkinson’s disease

Author

Kristopher J. Schmit, Pierre Garcia, Alessia Sciortino, Velma T.E. Aho, Beatriz Pardo Rodriguez, Mélanie H. Thomas, Jean-Jacques Gérardy, Irati Bastero Acha, Rashi Halder, Camille Cialini, Tony Heurtaux, Irina Ostahi, Susheel B. Busi, Léa Grandmougin, Tuesday Lowndes, Yogesh Singh, Eric C. Martens, Michel Mittelbronn, Manuel Buttini, and Paul Wilmes

Subjects

CP: Microbiology, CP: Neuroscience, Biology (General), QH301-705.5

Abstract

Summary: Parkinson’s disease (PD) is a neurological disorder characterized by motor dysfunction, dopaminergic neuron loss, and alpha-synuclein (αSyn) inclusions. Many PD risk factors are known, but those affecting disease progression are not. Lifestyle and microbial dysbiosis are candidates in this context. Diet-driven gut dysbiosis and reduced barrier function may increase exposure of enteric neurons to toxins. Here, we study whether fiber deprivation and exposure to bacterial curli, a protein cross-seeding with αSyn, individually or together, exacerbate disease in the enteric and central nervous systems of a transgenic PD mouse model. We analyze the gut microbiome, motor behavior, and gastrointestinal and brain pathologies. We find that diet and bacterial curli alter the microbiome and exacerbate motor performance, as well as intestinal and brain pathologies, but to different extents. Our results shed important insights on how diet and microbiome-borne insults modulate PD progression via the gut-brain axis and have implications for lifestyle management of PD.

Published

2023

2. Dietary fibre deprivation and bacterial curli exposure shift gut microbiome and exacerbate Parkinson's disease-like pathologies in an alpha-synuclein-overexpressing mouse

Author

Kristopher J Schmit, Alessia Sciortino, Velma TE Aho, Pierre Garcia, Beatriz Pardo Rodriguez, Melanie H Thomas, Jean-Jacques Gerardy, Rashi Halder, Camille Cialini, Tony Heurtaux, Irati Bastero Acha, Irina Ostahi, Eric C Martens, Michel Mittelbronn, Manuel Buttini, and Paul Wilmes

Abstract

The microbiome-gut-brain axis has been proposed as a pathogenic path in Parkinson's disease (PD). Dietary driven dysbiosis and reduced gut barrier function could facilitate the interaction of toxic external or internal factors with the enteric nervous system, where PD could start. Amyloid bacterial protein such as curli can act as seed to corrupt enteric alpha-synuclein and lead to its aggregation. Misfolded alpha-synuclein can propagate to and throughout the brain. Here, we aimed at understanding if fibre deprivation and amyloidogenic protein curli could, individually or together, exacerbate the phenotype in both enteric and central nervous systems of a transgenic mouse overexpressing wild-type human alpha-synuclein. We analysed the gut microbiome, motor behaviour, gastrointestinal and brain pathologies in these mice. Our findings show that external interventions, akin to unhealthy life habits in humans, can exacerbate PD-like pathologies in mice. We believe that our results shed light on how lifestyle affects PD progression.

Published

2022

3. Multifactor Progression of Parkinson's Disease: Role of Diet and Exposure to Microbiome-Borne Curli

Author

Kristopher John Schmit, Alessia Sciortino, Velma TE Aho, Pierre Garcia, Beatriz Pardo Rodriguez, Mélanie H. Thomas, Jean-Jacques Gérardy, Irati Bastero Acha, Rashi Halder, Camille Cialini, Tony Heurtaux, Irina Ostahi, Eric C. Martens, Michel Mittelbronn, Manuel Buttini, and Paul Wilmes

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022