Pisciottani, A., L. Croci, F. Lauria, C. Marullo, E. Savino, A. Ambrosi, P. Podini, M. Marchioretto, F. Casoni, O. Cremona, S. Taverna, A. Quattrini, J.-M. Cioni, G. Viero, F. Codazzi and G. G. Consalez, 2023. Neuronal models of TDP-43 proteinopathy display reduced axonal translation, increased oxidative stress, and defective exocytosis. Frontiers in Cellular Neuroscience 17. https://doi.org/10.3389/fncel.2023.1253543
Tags: cortical neurons, mouse, primary, SND450

Linares, G. R., Y. Li, W.-H. Chang, J. Rubin-Sigler, S. Mendonca, S. Hong, Y. Eoh, W. Guo, Y.-H. Huang, J. Chang, S. Tu, N. Dorjsuren, M. Santana, S.-T. Hung, J. Yu, J. Perez, M. Chickering, T.-Y. Cheng, C.-C. Huang, S.-J. J. Lee, H.-J. Deng, K.-T. Bach, K. Gray, V. Subramanyam, J. Rosenfeld, S. V. Alworth, H. Goodarzi and J. K. Ichida, 2023. SYF2 suppression mitigates neurodegeneration in models of diverse forms of ALS. Cell Stem Cell 30(2): 171-187.e114. https://doi.org/10.1016/j.stem.2023.01.005
Tags: axotomy, hiPSC-derived motor neurons, lentivirus, XC900

Dinamarca, M. C., L. Colombo, U. Brykczynska, A. Grimm, I. Fruh, I. Hossain, D. Gabriel, A. Eckert, M. Müller and E. Pecho-Vrieseling, 2023. Transmission-selective muscle pathology induced by the active propagation of mutant huntingtin across the human neuromuscular synapse. Front Mol Neurosci 16: 1287510. https://doi.org/10.3389%2Ffnmol.2023.1287510
Tags: iMD3, motor neurons, myotubes, XC450

Kropf, E., A. Shekari, S. Jaberi, A. Puri, C. Wu and M. Fahnestock, 2023. Age-induced nitrative stress decreases retrograde transport of proNGF via TrkA and increases proNGF retrograde transport and neurodegeneration via p75(NTR). Front Mol Neurosci 16: 1241420. https://doi.org/10.3389%2Ffnmol.2023.1241420
Tags: basal forebrain cholinergic neurons, primary, XC450

Samar, A., P. Melanie, N. Masahiro, S. Siyuan, C. Tania, L. W. Jeffrey and A. Liliana, 2023. Exosomes promote axon outgrowth and a polarized neuronal morphology by engaging the Wnt-Planar Cell Polarity pathway. bioRxiv: 2023.2010.2028.564542. https://doi.org/10.1101/2023.10.28.564542
Tags: cortical neurons, exosomes, preprint, primary, XC150

Paraskevi, T., S. Jolien, S. Wendy, S. Adria, D. Katarina Stoklund, C. Adriana Margarida Barbosa, P. Arun, H. Andreas, D. Philip Van, M. Thomas and B. Ludo Van Den, 2023. PP2A and GSK3 act as modifiers of FUS-ALS by modulating mitochondrial transport. bioRxiv: 2023.2008.2028.555106. https://doi.org/10.1101/2023.08.28.555106
Tags: hiPSC-derived motor neurons, myoblasts, neuromuscular junction (NMJ), preprint, XC150

Abdolhossein, Z., S. Saeede, B. Michael and S. Michael, 2023. Prevention of tau accumulation through inhibition of hnRNP R-dependent axonal <em>Mapt</em> mRNA localization. bioRxiv: 2023.2007.2019.549639. https://doi.org/10.1101/2023.07.19.549639
Tags: motor neurons, mouse, preprint, primary, SND150

Costamagna, D., V. Bastianini, M. Corvelyn, R. Duelen, J. Deschrevel, N. De Beukelaer, H. De Houwer, M. Sampaolesi, G. Gayan-Ramirez, A. V. Campenhout and K. Desloovere, 2023. Botulinum Toxin Treatment of Adult Muscle Stem Cells from Children with Cerebral Palsy and hiPSC-Derived Neuromuscular Junctions. Cells 12 DOI: 10.3390/cells12162072. https://doi.org/10.3390/cells12162072
Tags: hiPSC-derived, lower motor neurons, myoblasts, neuromuscular junction (NMJ), XC150

Van Breedam, E., T. Buyle-Huybrecht, J. Govaerts, P. Meysman, A. Bours, M. Boeren, J. Di Stefano, T. Caers, H. De Reu, L. Dirkx, J. Schippers, E. Bartholomeus, M. Lebrun, C. Sadzot-Delvaux, P. Rybakowska, M. E. Alarcón-Riquelme, C. Marañón, K. Laukens, P. Delputte, B. Ogunjimi and P. Ponsaerts, 2023. Lack of strong innate immune reactivity renders macrophages alone unable to control productive Varicella-Zoster Virus infection in an isogenic human iPSC-derived neuronal co-culture model. Frontiers in Immunology 14. https://doi.org/10.3389/fimmu.2023.1177245
Tags: co-cultures, hiPSC-derived, macrophages, XC150

Arun, P., G. Dajana, G. Hannes, Z. Vitaly, G. René, C. Marica, M. B. Tobias, S. Jared, S. Erik, P. Susanne, W. Florian, G. Stefan, P.-M. Francisco and H. Andreas, 2023. DJ-1 products glycolic acid and D-lactate restore deficient axonal trafficking and DNA damage response in FUS and SOD1-associated amyotrophic lateral sclerosis. bioRxiv: 2023.2009.2020.558653. 10.1101/2023.09.20.558653
Tags: hiPSC-derived, hiPSC-derived motor neurons, motor neurons, preprint, RD900

Chen, C., R. Kumbhar, H. Wang, X. Yang, K. Gadhave, C. Rastegar, Y. Kimura, A. Behensky, S. Katakam, D. Jeong, L. Wang, A. Wang, R. Chen, S. Zhang, L. Jin, C. J. Workman, D. A. A. Vignali, O. Pletinkova, D. W. Nauen, P. C. Wong, J. C. Troncoso, M. Ying, V. L. Dawson, T. M. Dawson and X. Mao, 2023. Pathological Tau transmission initiated by binding lymphocyte-activation gene 3. bioRxiv. 10.1101/2023.05.16.541015
Tags: mouse, preprint, primary, TCND1000

Danastas, K., G. Guo, J. Merjane, N. Hong, A. Larsen, M. Miranda-Saksena and L. Cunningham Anthony, 2023. Interferon inhibits the release of herpes simplex virus-1 from the axons of sensory neurons. mBio 14(5): e01818-01823. https://doi.org/10.1128/mbio.01818-23
Tags: primary, rat, SND450, viral infection

Smith, C. S., Z. Álvarez, R. Qiu, I. R. Sasselli, T. Clemons, J. A. Ortega, M. Vilela-Picos, H. Wellman, E. Kiskinis and S. I. Stupp, 2023. Enhanced Neuron Growth and Electrical Activity by a Supramolecular Netrin-1 Mimetic Nanofiber. ACS Nano 17(20): 19887-19902. https://doi.org/10.1021/acsnano.3c04572
Tags: XC450

Mutschler, C., S. V. Fazal, N. Schumacher, A. Loreto, M. P. Coleman and P. Arthur-Farraj, 2023. Schwann cells are axo-protective after injury irrespective of myelination status in mouse Schwann cell–neuron cocultures. Journal of Cell Science 136(18): jcs261557. * uses Xona's silicone devices (SND150) with mouse primary co-cultures of DRG and myelinating Schwann cells.  https://doi.org/10.1242/jcs.261557
Tags: co-culture, DRG, mouse, myelination, primary, Schwann cells, SND150

Gu, M., X. Li, R. Wu, X. Cheng, S. Zhou and X. Gu, 2023. The Transcription Factor Ets1 Influences Axonal Growth via Regulation of Lcn2. Molecular Neurobiology. https://doi.org/10.1007/s12035-023-03616-0
Tags: embryonic, injury, rat, SND150, spinal cord neurons

Wu, Z., R. Zhu, Y. Yu, J. Wang, X. Hu, W. Xu, Y. Ren, C. Li, Z. Zeng, B. Ma, N. Xie, G. Lin, B. Ma, R. Zhu, K. Ye and L. Cheng, 2023. Spinal cord injury-activated C/EBPβ-AEP axis mediates cognitive impairment through APP C586/Tau N368 fragments spreading. Progress in Neurobiology 227: 102467. https://doi.org/10.1016/j.pneurobio.2023.102467
Tags: hippocampal neurons, primary, SND450

Van Dyck, A., L. Masin, S. Bergmans, G. Schevenels, A. Beckers, B. Vanhollebeke and L. Moons, 2023. A new microfluidic model to study dendritic remodeling and mitochondrial dynamics during axonal regeneration of adult zebrafish retinal neurons. Frontiers in Molecular Neuroscience 16. https://doi.org/10.3389/fnmol.2023.1196504
Tags: adult, SND450, SOC450, XC pre-coat, zebrafish

Brummer, T., M. Schillner, F. Steffen, F. Kneilmann, B. Wasser, T. Uphaus, F. Zipp and S. Bittner, 2023. Spatial transcriptomics and neurofilament light chain reveal changes in lesion patterns in murine autoimmune neuroinflammation. Journal of Neuroinflammation 20(1): 262. * uses XC450 XonaChips with microglia-axon co-cultures.  https://doi.org/10.1186/s12974-023-02947-y
Tags: cortical neurons, microglia, primary, XC450

Boal, A. M., N. R. McGrady, X. Chamling, B. S. Kagitapalli, D. J. Zack, D. J. Calkins and M. L. Risner, 2023. Microfluidic Platforms Promote Polarization of Human-Derived Retinal Ganglion Cells That Model Axonopathy. Translational Vision Science & Technology 12(4): 1-1. * uses XC450 XonaChips with hESC-derived RGCs. https://doi.org/10.1167/tvst.12.4.1
Tags: hESC-derived, retinal ganglion cells, XC450

Salehi, S., A. Zare, G. Prezza, J. Bader, C. Schneider, U. Fischer, F. Meissner, M. Mann, M. Briese and M. Sendtner, 2023. Cytosolic Ptbp2 modulates axon growth in motoneurons through axonal localization and translation of Hnrnpr. Nature Communications 14(1): 4158. * uses IND150 and RD150 silicone devices with mouse motoneurons.  https://doi.org/10.1038/s41467-023-39787-6
Tags: IND150, motor neurons, mouse, primary, RD450

Murata, H., Y. Yasui, K. Oiso, T. Ochi, N. Tomonobu, K.-i. Yamamoto, R. Kinoshita and M. Sakaguchi, 2023. STAT1/3 signaling suppresses axon degeneration and neuronal cell death through regulation of NAD+-biosynthetic and consuming enzymes. Cellular Signalling 108: 110717. * uses SND450 silicone devices with human iPSC-derived neurons  https://doi.org/10.1016/j.cellsig.2023.110717
Tags: hiPSC-derived, human, SND450

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

Subramani, M., M. J. Van Hook and I. Ahmad, 2023. Reproducible generation of human retinal ganglion cells from banked retinal progenitor cells: analysis of target recognition and IGF-1-mediated axon regeneration. Front Cell Dev Biol 11: 1214104. * uses SND450 silicone devices with human RGC  https://doi.org/10.3389%2Ffcell.2023.1214104
Tags: human, injury, retinal ganglion cells, SND450

Baker, C. A., S. Tyagi, G. P. Higerd-Rusli, S. Liu, P. Zhao, F. B. Dib-Hajj, S. G. Waxman and S. D. Dib-Hajj, 2023. Paclitaxel effects on axonal localization and vesicular trafficking of NaV1.8. Frontiers in Molecular Neuroscience 16. * Uses SND450 silicone devices with rat DRG neurons. https://doi.org/10.3389/fnmol.2023.1130123
Tags: DRG, rat, SND450

Siddiq, M. M., C. A. Toro, N. P. Johnson, J. Hansen, Y. Xiong, W. Mellado, R. E. Tolentino, K. Johnson, G. Jayaraman, Z. Suhail, L. Harlow, J. Dai, K. G. Beaumont, R. Sebra, D. E. Willis, C. P. Cardozo and R. Iyengar, 2023. Spinal cord injury regulates circular RNA expression in axons. Front Mol Neurosci 16: 1183315. * uses Xona's silicone devices (SND450) with primary cortical neurons https://doi.org/10.3389%2Ffnmol.2023.1183315
Tags: cortical neurons, injury, mouse, primary, rat, SND450

Kandhavivorn, W., H. Glaß, T. Herrmannsdörfer, T. M. Böckers, M. Uhlarz, J. Gronemann, R. H. W. Funk, J. Pietzsch, A. Pal and A. Hermann, 2023. Restoring Axonal Organelle Motility and Regeneration in Cultured FUS-ALS Motoneurons through Magnetic Field Stimulation Suggests an Alternative Therapeutic Approach. Cells 12 DOI: 10.3390/cells12111502. * uses Xona's silicone devices (RD900) with hiPSC-derived motor neurons. https://doi.org/10.3390/cells12111502
Tags: hiPSC-derived motor neurons, RD900

Chan, C., K. Ramhari, W. Hu, Y. Xiuli, G. Kundlik, R. Cyrus, K. Yasuyoshi, B. Adam, K. Sruthi, J. Deok, W. Liang, W. Anthony, C. Rong, Z. Shu, J. Lingtao, J. W. Creg, A. A. V. Dario, P. Olga, W. N. David, C. W. Philip, C. T. Juan, Y. Mingyao, L. D. Valina, M. D. Ted and M. Xiaobo, 2023. Pathological Tau transmission initiated by binding lymphocyte-activation gene 3. bioRxiv: 2023.2005.2016.541015. * uses Xona's silicone devices (TCND1000) with primary mouse cortical neurons.  https://doi.org/10.1101/2023.05.16.541015
Tags: cortical neurons, mouse, preprint, primary, TCND1000

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

Alessandra, P., C. Laura, L. Fabio, M. Chiara, S. Elisa, A. Alessandro, P. Paola, M. Marta, C. Filippo, C. Ottavio, T. Stefano, Q. Angelo, C. Jean-Michel, V. Gabriella, C. Franca and G. G. Consalez, 2023. Two neuronal models of TDP-43 proteinopathy display reduced axonal translation, increased oxidative stress, and defective exocytosis. bioRxiv: 2023.2005.2017.540919. * uses Xona's silicone devices (SND450) with mouse cortical neurons.  https://doi.org/10.1101/2023.05.17.540919
Tags: cortical neurons, mouse, preprint, primary, SND450

Aiken, J. and E. L. F. Holzbaur, 2023. Spastin locally amplifies microtubule dynamics to pattern the axon for presynaptic cargo delivery. bioRxiv. * uses XonaChip (XC450) with human iPSC-derived i3Neurons.  https://doi.org/10.1101%2F2023.08.08.552320
Tags: hiPSC-derived, human, i3Neurons, preprint, XC450

Zimyanin, V. L., A.-M. Pielka, H. Glaß, J. Japtok, D. Großmann, M. Martin, A. Deussen, B. Szewczyk, C. Deppmann, E. Zunder, P. M. Andersen, T. M. Boeckers, J. Sterneckert, S. Redemann, A. Storch and A. Hermann, 2023. Live Cell Imaging of ATP Levels Reveals Metabolic Compartmentalization within Motoneurons and Early Metabolic Changes in FUS ALS Motoneurons. Cells 12 DOI: 10.3390/cells12101352. * uses Xona's silicone devices (RD900) with human iPSC-derived motoneurons. https://doi.org/10.3390/cells12101352
Tags: hiPSC-derived motor neurons, human, RD900

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

Salas-Lucia, F., C. Fekete, R. Sinkó, P. Egri, K. Rada, Y. Ruska, B. Gereben and A. C. Bianco, 2023. Axonal T3 uptake and transport can trigger thyroid hormone signaling in the brain. eLife 12: e82683. * uses XonaChips (XC450) with primary mouse cortical neurons. https://doi.org/10.7554/eLife.82683
Tags: cortical neurons, mouse, primary, XC450

De Vincentiis, S.Baggiani, M.Merighi, F.Cappello, V.Lopane, J.Di Caprio, M.Costa, M.Mainardi, M.Onorati, M.Raffa, V.Low Forces Push the Maturation of Neural Precursors into NeuronsSmall 2023, 2205871. * uses Xona’s Silicone Devices (RD150) with hiPSC-differentiated spinal cord neurons. http://doi.org/10.1002/smll.202205871
Tags: hiPSC-derived, RD150, spinal cord neurons

Neel DV, Basu H, Gunner G, Bergstresser MD, Giadone RM, Chung H, Miao R, Chou V, Brody E, Jiang X, Lee E, Watts ME, Marques C, Held A, Wainger B, Lagier-Tourenne C, Zhang YJ, Petrucelli L, Young-Pearse TL, Chen-Plotkin AS, Rubin LL, Lieberman J, Chiu IM. Gasdermin-E mediates mitochondrial damage in axons and neurodegeneration. Neuron. 2023 Apr 19;111(8):1222-1240.e9. * uses XonaChips® (XC450) and Xona’s Silicone Devices (RD450) using mouse cortical neurons. http://doi.org/10.1016/j.neuron.2023.02.019
Tags: cortical neurons, mouse, RD450, XC450

Xu, X., Zhang, H., Li, J., Chen, Y., Zhong, W., Chen, Y., Ma, X., 2023. Combination of EPC-EXs and NPC-EXs with miR-126 and miR-210 overexpression produces better therapeutic effects on ischemic stroke by protecting neurons through the Nox2/ROS and BDNF/TrkB pathways. Exp Neurol 359, 114235. https://doi.org/10.1016/j.expneurol.2022.114235

Kaniyappan, S., Balaji, V., Wang, Y., Mandelkow, E., 2023. Microfluidic Chamber Technology to Study Missorting and Spreading of Tau Protein in Alzheimer’s Disease, in: Cieplak, A.S. (Ed.), Protein Aggregation: Methods and Protocols. New York, NY: Springer US, pp. 111-123. * uses Xona’s Silicone (PDMS) Devices (RD150, TCND1000) with primary rat cortical or hippocampal neurons **PROTOCOL** https://doi.org/10.1007/978-1-0716-2597-2_9
Tags: cortical neurons, hippocampal neurons, primary, protocol, rat, RD150, TCND1000

Higerd-Rusli, G.P., Tyagi, S., Baker, C.A., Liu, S., Dib-Hajj, F.B., Dib-Hajj, S.D., Waxman, S.G., 2023. Inflammation differentially controls transport of depolarizing Nav versus hyperpolarizing Kv channels to drive rat nociceptor activity. Proceedings of the National Academy of Sciences 120, e2215417120. https://www.pnas.org/doi/10.1073/pnas.2215417120
Tags: basic research, DOC450, postnatal, rat

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

Yang, X., Tohda, C., 2023. Axonal Regeneration Mediated by a Novel Axonal Guidance Pair, Galectin-1 and Secernin-1. Mol Neurobiol 60, 1250-1266. https://doi.org/10.1007/s12035-022-03125-6
Tags: hippocampal neurons, primary

Falconieri, A., De Vincentiis, S., Cappello, V., Convertino, D., Das, R., Ghignoli, S., Figoli, S., Luin, S., Català-Castro, F., Marchetti, L., Borello, U., Krieg, M., Raffa, V., 2023. Axonal plasticity in response to active forces generated through magnetic nano-pulling. Cell Reports 42, 111912. * uses Xona’s Silicone Devices (RD150) with primary mouse hippocampal and DRG neurons. https://doi.org/10.1016/j.celrep.2022.111912
Tags: DRG, hippocampal neurons, mouse, RD150

Hennlein, L., Ghanawi, H., Gerstner, F., Palominos García, E., Yildirim, E., Saal-Bauernschubert, L., Moradi, M., Deng, C., Klein, T., Appenzeller, S., Sauer, M., Briese, M., Simon, C., Sendtner, M., Jablonka, S., 2023. Plastin 3 rescues cell surface translocation and activation of TrkB in spinal muscular atrophy. Journal of Cell Biology 222, e202204113. https://doi.org/10.1083/jcb.202204113
Tags: motor neurons, mouse, primary, SND150, spinal muscular atrophy

Vevea, J.D., Chapman, E.R., 2023. Mitofusin 2 sustains the axonal mitochondrial network to support presynaptic Ca2+ homeostasis and the synaptic vesicle cycle in rat hippocampal axons. The Journal of Neuroscience, JN-RM-1356-1322. https://doi.org/10.1523/JNEUROSCI.1356-22.2023
Tags: basic research, hippocampal neurons, rat

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

Higerd-Rusli, G.P., Tyagi, S., Liu, S., Dib-Hajj, F.B., Waxman, S.G., Dib-Hajj, S.D., 2023. The fates of internalized NaV1.7 channels in sensory neurons: Retrograde cotransport with other ion channels, axon-specific recycling, and degradation. Journal of Biological Chemistry 299 * uses Xona’s Silicone Devices (DOC450) with primary rat DRGs (P2-4). https://doi.org/10.1016/j.jbc.2022.102816
Tags: basic research, DOC450, postnatal, rat

Antoniou, A., Auderset, L., Kaurani, L., Sebastian, E., Zeng, Y., Allahham, M., Cases-Cunillera, S., Schoch, S., Gründemann, J., Fischer, A., Schneider, A., 2023. Neuronal extracellular vesicles and associated microRNAs induce circuit connectivity downstream BDNF. Cell Reports 42 * uses XonaChips® (XC150) and Silicone Devices (TCND500) with mouse cortical and hippocampal neurons (E16). https://doi.org/10.1016/j.celrep.2023.112063
Tags: cortical neurons, hippocampal neurons, mouse, TCND500, XC150

Antoniou, A., Auderset, L., Kaurani, L., Sebastian, E., Zeng, Y., Allahham, M., Cases-Cunillera, S., Schoch, S., Gründemann, J., Fischer, A., Schneider, A., 2023. Neuronal extracellular vesicles and associated microRNAs induce circuit connectivity downstream...

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.

Subramani, M., Hook, M.V., Rajamoorthy, M., Qiu, F., Ahmad, I., 2023. Human Retinal Ganglion Cells Respond to Evolutionarily Conserved Chemotropic Cues for Intra Retinal Guidance and Regeneration. bioRxiv, 2023.2002.2001.526677 * uses Xona’s Silicone Devices (SND450) with human retinal ganglion cells and rat retinal cells.  https://doi.org/10.1101/2023.02.01.526677
Tags: human, preprint, rat, retinal ganglion cells, SND450

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