Publications: Dr Emilie Marhuenda

Fromager B, Cambedouzou J, Marhuenda E, Iskratsch T, Pinault M, Bakalara N, Cornu D ( 2024 ) . Tunable electrospun scaffolds of polyacrylonitrile loaded with carbon nanotubes: from synthesis to biological applications . ChemBioChem

Di Cio S, Marhuenda E, Haddrick M, Gautrot JE ( 2024 ) . Vascularised cardiac spheroids-on-a-chip for testing the toxicity of therapeutics . Scientific Reports vol. 14 , ( 1 )

Faleeva M, Ahmad S, Theofilatos K, Lynham S, Watson G, Whitehead M, Marhuenda E, Iskratsch T et al. ( 2024 ) . Sox9 Accelerates Vascular Ageing by Regulating Extracellular Matrix Composition and Stiffness . Circulation Research

Iskratsch T, Swiatlowska P, Tipping W, Marhuenda E, Severi P, Fomin V, Yang Z, Xiao Q et al. ( 2023 ) . Hypertensive pressure mechanosensing alone triggers lipid droplet accumulation and transdifferentiation of vascular smooth muscle cells to foam cells . Advanced Science

Fromager B, Marhuenda E, Louis B, Bakalara N, Cambedouzou J, Cornu D ( 2023 ) . Recent Advances in Electrospun Fibers for Biological Applications . Macromol—A Journal of Macromolecular Research vol. 3 , ( 3 ) 569 - 613 .

Ross JA, Arcos-Villacis N, Battey E, Boogerd C, Orellana CA, Marhuenda E, Swiatlowska P, Hodzic D et al. ( 2023 ) . Lem2 is essential for cardiac development by maintaining nuclear integrity . Cardiovascular Research vol. 119 , ( 11 ) 2074 - 2088 .

Jacques R, Zhou B, Marhuenda E, Gorecki J, Das A, Iskratsch T, Krause S ( 2022 ) . Photoelectrochemical imaging of single cardiomyocytes and monitoring of their action potentials through contact force manipulation of organoids . Biosensors and Bioelectronics

Marhuenda E, Iskratsch T, Xanthis I ( 2022 ) . Crosstalk between cell-matrix and cell-cell signaling in cardiomyocyte mechanosensing . Journal of Molecular and Cellular Cardiology vol. 173 ,

Swiatlowska P, Sit B, Feng Z, Marhuenda E, Zhou X, Xiao Q, Shanahan C, Yu C-H et al. ( 2022 ) . Mechanoregulation of vascular smooth muscle cells phenotype in atherosclerosis . Journal of Molecular and Cellular Cardiology vol. 173 , 41 - 42 .

Marhuenda E, Pandey P, Xanthis I, O'Neill C, Iskratsch T ( 2022 ) . The cardiomyocyte mechanical code – Mechanical imprinting of talin interactions regulate cardiomyocyte mechanosensing and function . Journal of Molecular and Cellular Cardiology vol. 173 ,

Iskratsch T, Hawkes W, Marhuenda E, Reynolds P, O'Neill C, PANDEY P, Wilson D, FREELEY M et al. ( 2022 ) . Regulation of Cardiomyocyte Adhesion and Mechanosignalling Through Distinct Nanoscale Behaviour of Integrin Ligands Mimicking Healthy or Fibrotic ECM . Philosophical Transactions of the Royal Society B: Biological Sciences

Swiatlowska P, Sit BHM, Zhen F, Marhuenda E, Xanthis I, Zingaro S, Ward M, Zhou X et al. ( 2022 ) . Pressure and stiffness sensing together regulate vascular smooth muscle cell phenotype switching . Science Advances

Marhuenda E, Fabre C, Zhang C, Martin-Fernandez M, Iskratsch T, Saleh A, Bauchet L, Cambedouzou J et al. ( 2021 ) . Glioma stem cells invasive phenotype at optimal stiffness is driven by MGAT5 dependent mechanosensing . Journal of Experimental and Clinical Cancer Research vol. 40 , ( 1 )

Sixto-López Y, Marhuenda E, García-Vazquez JB, Fragoso-Vazquez MJ, Rosales-Hernández MC, Zacarías-Lara O, Méndez-Luna D, Gómez-Vidal JA et al. ( 2021 ) . Targeting Several Biologically Reported Targets of Glioblastoma Multiforme by Assaying 2D and 3D Cultured Cells . Cellular and Molecular Neurobiology vol. 42 , ( 6 ) 1909 - 1920 .

Swiatlowska P, Sit B, Feng Z, Marhuenda E, Xanthis I, Zingaro S, Ward M, Zhou X et al. ( 2020 ) . Matrix stiffness and blood pressure together regulate vascular smooth muscle cell phenotype switching .

Marhuenda E, Fabre C, Zhang C, Martin-Fernandez M, Iskratsch T, Saleh A, Bauchet L, Cambedouzou J et al. ( 2020 ) . Glioma stem cells invasive phenotype at optimal stiffness is driven by MGAT5 dependent mechanosensing .

Saleh A, Marhuenda E, Fabre C, Hassani Z, Weille JD, Boukhaddaoui H, Guelfi S, Maldonado IL et al. ( 2019 ) . A novel 3D nanofibre scaffold conserves the plasticity of glioblastoma stem cell invasion by regulating galectin-3 and integrin-β1 expression . Scientific Reports vol. 9 , ( 1 )