Substrate stiffness and pressure alter retinal Müller glia response and extracellular matrix production
Laura Prieto-López, Xandra Pereiro, Emilio J. González Ramírez, Noelia Ruzafa, Alicia Alonso, Kristian Franze, Elena Vecino

TL;DR
This study shows how retinal Müller glia respond to mechanical stress by changing survival and extracellular matrix production, with TGF-β1 playing a key role.
Contribution
The study reveals how substrate stiffness and pressure influence Müller glia behavior and identifies TGF-β1 as a potential therapeutic target.
Findings
Müller glia survival and extracellular matrix deposition increase on stiffer substrates.
High pressure reduces survival but increases matrix deposition, which is reduced by TGF-β1 inhibition.
Abstract
•Müller glia survival and extracellular matrix deposition increase on stiffer substrates.•High pressure reduces Müller glia survival but increases matrix deposition.•Inhibition of TGFβ1 reduces extracellular matrix deposition. Müller glia survival and extracellular matrix deposition increase on stiffer substrates. High pressure reduces Müller glia survival but increases matrix deposition. Inhibition of TGFβ1 reduces extracellular matrix deposition. The retina is highly influenced by its mechanical environment, with Müller glia (MG) acting as key mechanosensors and extracellular matrix (ECM) producers. This study examined MG responses to substrate stiffness and high pressure (HP), and whether TGF-β1 modulation could mitigate these effects. Primary MG from adult rat retinas were cultured on glass (Young’s modulus E’=∼1 gigapascal (GPa)) and polyacrylamide gels (10 kPa and 100 kPa).…
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Taxonomy
TopicsRetinal Development and Disorders · Neuroscience and Neural Engineering · Cellular Mechanics and Interactions
