co-culture Archives - Xona Microfluidics

Gatti, M., K. S. Dittlau, F. Beretti, L. Yedigaryan, M. Zavatti, P. Cortelli, C. Palumbo, E. Bertucci, L. Van Den Bosch, M. Sampaolesi and T. Maraldi, 2023. Human Neuromuscular Junction on a Chip: Impact of Amniotic Fluid Stem Cell Extracellular Vesicles on Muscle Atrophy and NMJ Integrity. International Journal of Molecular Sciences 24(5): 4944. * uses XC150 XonaChips with human-derived myotube and motor neuron co-cultures. https://doi.org/10.3390/ijms24054944
Tags: co-culture, hiPSC-derived motor neurons, human, motor neurons, myotubes, stem cells, XC150

Clara, M., V. F. Shaline, S. Nathalie, L. Andrea, P. C. Michael and A.-F. Peter, 2023. Distinct axo-protective and axo-destructive roles for Schwann cells after injury in a novel compartmentalised mouse myelinating coculture system. bioRxiv: 2023.2005.2019.541371. * uses Xona's silicone devices (SND150) with mouse primary co-cultures of DRG and myelinating Schwann cells. https://doi.org/10.1101/2023.05.19.541371
Tags: co-culture, DRG, mouse, myelination, preprint, primary, Schwann cells, SND150

Cai, X., M. Han, F. Lou, Y. Sun, Q. Yin, L. Sun, Z. Wang, X. Li, H. Zhou, Z. Xu, H. Wang, S. Deng, X. Zheng, T. Zhang, Q. Li, B. Zhou and H. Wang, 2023. Tenascin C+ papillary fibroblasts facilitate neuro-immune interaction in a mouse model of psoriasis. Nature Communications 14(1): 2004. * uses XonaChips (XC150) with mouse DRG co-cultures. https://doi.org/10.1038/s41467-023-37798-x
Tags: co-culture, DRG, mouse, primary, XC150

Stoklund Dittlau, K., Terrie, L., Baatsen, P., Kerstens, A., De Swert, L., Janky, R.s., Corthout, N., Masrori, P., Van Damme, P., Hyttel, P., Meyer, M., Thorrez, L., Freude, K., Van Den Bosch, L., 2023. FUS-ALS hiPSC-derived astrocytes impair human motor units through both gain-of-toxicity and loss-of-support mechanisms. Molecular Neurodegeneration 18, 5. * uses XonaChips® (XC150) with co-culture of hiPSC-derived motor neurons and astrocytes with human primary myoblasts. https://doi.org/10.1186/s13024-022-00591-3
Tags: astrocytes, co-culture, hiPSC-derived motor neurons, myoblasts, XC150

Limone, F., Guerra San Juan, I., Mitchell, J.M., Smith, J.L.M., Raghunathan, K., Meyer, D., Ghosh, S.D., Couto, A., Klim, J.R., Joseph, B.J., Gold, J., Mello, C.J., Nemesh, J., Smith, B.M., Verhage, M., McCarroll, S.A., Pietiläinen, O., Nehme, R., Eggan, K., 2023. Efficient generation of lower induced motor neurons by coupling Ngn2 expression with developmental cues. Cell Reports 42, 111896. * uses XonaChips^® (XC450) with co-culture of human lower induced motor neurons (liMNs) and primary murine myoblasts. https://doi.org/10.1016/j.celrep.2022.111896
Tags: co-culture, hiPSC-derived motor neurons, myoblasts, XC450

Hanč, P., Gonzalez, R.J., Mazo, I.B., Wang, Y., Lambert, T., Ortiz, G., Miller, E.W., von Andrian, U.H., Multimodal control of dendritic cell functions by nociceptors. Science 379, eabm5658. * co-culture of nociceptors and dendritic cells. 10.1126/science.abm5658
Tags: co-culture, dendritic cells, mouse, nociceptors, pain

Hanč, P., Gonzalez, R.J., Mazo, I.B., Wang, Y., Lambert, T., Ortiz, G., Miller, E.W., von Andrian, U.H., Multimodal control of dendritic cell functions by nociceptors. Science 379, eabm5658. * co-culture of nociceptors and dendritic cells.

Kulkarni, V.V., Stempel, M.H., Anand, A., Sidibe, D.K., Maday, S., 2022. Retrograde Axonal Autophagy and Endocytic Pathways Are Parallel and Separate in Neurons. The Journal of Neuroscience 42, 8524. https://doi.org/10.1523/JNEUROSCI.1292-22.2022
Tags: astrocytes, co-culture, cortical neurons, mouse, RD900

Margarita, D.C., Laura, C., Urszula, B., Amandine, G., Natalia, T.E., Isabelle, F., Hossain, I., Daniela, G., Anne, E., Matthias, M., Eline, P.-V., 2021. Mutant huntingtin actively crosses neuromuscular synapses and causes transmission-selective pathology in human myotubes. bioRxiv, 2021.2007.2028.454044. https://doi.org/10.1101/2021.07.28.454044
Tags: co-culture, hiPSC-derived, human, neuromuscular junction (NMJ), preprint, XC450

Güner, F., Pozner, T., Krach, F., Prots, I., Loskarn, S., Schlötzer-Schrehardt, U., Winkler, J., Winner, B., Regensburger, M., 2021. Axon-Specific Mitochondrial Pathology in SPG11 Alpha Motor Neurons. Frontiers in Neuroscience 15. * uses Xona’s Silicone Devices (SND450) with human iPSC-differentiated motor neuron progenitors and human cerebellar astrocytes co-cultures. https://doi.org/10.3389/fnins.2021.680572
Tags: astrocytes, co-culture, hiPSC-derived, hiPSC-derived motor neurons, human, motor neurons, SND450

Fujita, Y., Nakanishi, T., Ueno, M., Itohara, S., Yamashita, T., 2020. Netrin-G1 Regulates Microglial Accumulation along Axons and Supports the Survival of Layer V Neurons in the Postnatal Mouse Brain. Cell Rep 31, 107580. * uses Xona’s Silicone Devices (SND450) with mouse cortical neurons co-cultured with microglia https://doi.org/10.1016/j.celrep.2020.107580
Tags: co-culture, cortical neurons, microglia, mouse, SND450

Leitão, L., Neto, E., Conceição, F., Monteiro, A., Couto, M., Alves, C.J., Sousa, D.M., Lamghari, M., 2020. Osteoblasts are inherently programmed to repel sensory innervation. Bone Research 8, 20. * uses Xona’s Silicone Devices (SND450) with mouse DRG neurons co-cultured with human mesenchymal stem cells (MSC)-differentiated osteoblasts https://doi.org/10.1038/s41413-020-0096-1
Tags: co-culture, DRG, human, mouse, osteoblasts, SND450, stem cells

Cornejo, V.H., Gonzalez, C., Campos, M., Vargas-Saturno, L., Juricic, M.L.A., Miserey-Lenkei, S., Pertusa, M., Madrid, R., Couve, A., 2020. Non-conventional Axonal Organelles Control TRPM8 Ion Channel Trafficking and Peripheral Cold Sensing. Cell Rep 30, 4505-4517 e4505. * uses Xona’s Silicone Devices with mouse trigeminal and DRG neurons https://doi.org/10.1016/j.celrep.2020.03.017
Tags: co-culture, DRG, mouse, SND450, trigeminal

Soleilhavoup, C., Travaglio, M., Patrick, K., Garcao, P., Boobalan, E., Adolfs, Y., Spriggs, R.V., Moles-Garcia, E., Dhiraj, D., Oosterveen, T., Ferri, S.L., Abel, T., Brodkin, E.S., Pasterkamp, R.J., Brooks, B.P., Panman, L., 2020. Nolz1 expression is required in dopaminergic axon guidance and striatal innervation. Nat Commun 11, 3111. * uses Xona’s Silicone Devices (SND900) with mouse midbrain and striatum co-cultures https://doi.org/10.1038/s41467-020-16947-6
Tags: co-culture, midbrain, mouse, SND900, striatum

Fujita, Y., Yamashita, T., 2020. Protocol for Co-culture of Microglia with Axons. STAR Protocols, 100111. * uses Xona’s Silicone Devices (SND450) with mouse co-cultures with cortical neurons and microglia https://doi.org/10.1016/j.xpro.2020.100111
Tags: co-culture, cortical neurons, mouse, SND450

Vysokov, N., McMahon, S.B., Raouf, R., 2019. The role of NaV channels in synaptic transmission after axotomy in a microfluidic culture platform. Sci Rep 9, 12915. DOI: 10.1038/s41598-019-49214-w * uses Xona’s Silicone Devices (TCND1000) with rat DRG neurons and dorsal horn co-culture https://www.nature.com/articles/s41598-019-49214-w
Tags: co-culture, dorsal horn, DRG, rat, TCND1000

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