Publications

Publications from the Hind Lab at 麻豆免费版下载
  1. Owens JM, Weppner HK, Ignes-Romeu A, Burleson J#, and Hind LE. 鈥淚nterleukin-6 Concentration Regulates the Neutrophil Response to Diverse Bacteria.鈥 Frontiers of Immunology. Accepted.
  2. Calo CJ, Patil T#, Fouts J#, Ginter EL, Radke M, Weppner HK, Owens J, Hind LE+. 鈥淟ysyl Oxidase Reduces Neutrophil Extravasation in Response to P. aeruginosa in an Infection-on-a-Chip Model.鈥 Advanced NanoBiomed Research. Accepted.
  3. Weppner HK, Singh MA#, Katsnelson EN, Douin DJ, McCarter MD, Tobin RP, Hind LE+. 鈥淢-MDSCs Impair Neutrophil Migration in the Infectious Microenvironment.鈥 JLB. 2025 Dec 1;117(12):qaif165. Doi:10.1093/jleuko/qaif165.
  4. Ignes-Romeu A and Hind LE+. 鈥淚nnate Immune Crosstalk: The Central Role of Neutrophils and Macrophages in ANCA-Associated Vasculitis.鈥 Molecular Biology of the Cell. 2025 Oct 29:mbcE25080392. Doi:10.1091/mbc.E25-08-0392.
  5. Calo CJ, Radke M, Patil T#, Hind LE+. 鈥淩egulation of Neutrophil Function by the Extracellular Matrix.鈥 Biochemical Society Transactions. Review. 2025 Oct 16:BST20253020. Doi: 10.1042/BST20253020.
  6. Wiggin N, Cook C, Black M, Cadena I, Rahal-Arabi S, Asnes C, Ivanova Y, Hettiaratchi MH, Hind LE, Fogg K+. 鈥淓mpowering high-throughput high-content analysis of microphysiological models: Open-source software for automated image analysis of microvessel formation and cell invasion.鈥 Cellular and Molecular Bioengineering. 2024 Oct 10;17(5):369-383. Doi: 10.1007/s12195-024-00821-2.
  7. Ignes-Romeu A, Weppner H, Kaur T, Singh M#, Hind LE+. 鈥淢acrophages limit Neutrophil Extravasation in an Infection-on-a-Chip Model.鈥 Cellular and Molecular Bioengineering. 2024 Jul 20;17(4):279-293. Doi:10.1007/s12195-024-00813-2.
  8. Calo CJ, Patil T#, Palizzi M#, Wheeler N#, Hind LE+. 鈥淐ollagen Concentration Regulates Neutrophil Extravasation and Migration in Response to Infection in an Endothelium Dependent Manner.鈥 Frontiers in Immunology. 2024 Jul 3:15:1405364.
  9. Richardson IM, Calo CJ, Ginter EL, Niehaus E#, Pacheco KA#, Hind LE+. 鈥淒iverse Bacteria Elicit Distinct Neutrophil Responses in a Physiologically Relevant Model of Infection.鈥 iScience, 2023 Dec 2;27(1):108627.
  10. Richardson IM*, Calo CJ*, Hind LE+. 鈥淢icrophysiological Systems for Studying Cellular Crosstalk During the Neutrophil Response to Infection,鈥 Frontiers in Immunology, 2021 Apr 27;12:661537.聽
Publications from Previous Institutions
  1. Klemm LC, Denu RA, Hind LE, Rocha-Gregg BL, Burkard ME, Huttenlocher A. 鈥淐entriole and Golgi microtubule nucleation are dispensable for the migration of human neutrophil-like cells.鈥 Molecular Biology of the Cell, 2021 Aug 15;32(17):1545-1556.
  2. Yu J, Piazza A, Sparks S, Hind LE, Niles DJ, Ingram PN, Huang W, Ricke WA, Jarrard DF, Huttenlocher A, Beebe DJ. 鈥淎 reconfigurable microscale assay enables insights into cancer-associated fibroblast modulation of immune cell recruitment,鈥 Integrative Biology, 2021 Apr 20;13(4):87-97.
  3. Hind LE, Giese MA, Schoen TJ, Keller NP, Beebe DJ, Huttenlocher A. 鈥淚mmune Cell Paracrine Signaling Drives the Neutrophil Response to A. fumigatus in an Infection-on-a-Chip Model,鈥 Cellular and Molecular Bioengineering, 2020 Oct 13;14(2):133-145.
  4. McMinn PH, Hind LE, Huttenlocher A, Beebe DJ. 鈥淣eutrophil trafficking on-a-chip: an in vitro, organotypic model for investigating neutrophil priming, extravasation, and migration with spatiotemporal control,鈥 Lab Chip, 2019 Nov 7;19(21):3697-3705.
  5. Giese MA*, Hind LE*, Huttenlocher A. 鈥淣eutrophil plasticity in the tumor microenvironment,鈥 Blood, 2019 May 16;133(20):2159-2167. *These authors contributed equally.
  6. Hind LE and Huttenlocher A. 鈥淣eutrophil Reverse Migration and a Chemokinetic Resolution,鈥 Developmental Cell, 2018 Nov 19; 47(4):404-405.
  7. Hind LE, Ingram PN, Beebe DJ, Huttenlocher A. 鈥淚nteraction with an endothelial lumen increases neutrophil lifetime and motility in response to P. aeruginosa,鈥 Blood, 2018 Oct 25;132(17):1818-1828.
  8. Ingram PN, Hind LE, Jiminez-Torres JA, Huttenlocher A, Beebe DJ. 鈥淎n Accessible Organotypic Microvessel Model using iPSC-Derived Endothelium,鈥 Advanced Healthcare Materials. 2018 Jan;7(2).
  9. Powell D, Tauzin S, Hind LE, Deng Q, Beebe DJ, Huttenlocher A. 鈥淐hemokine Signaling and the Regulation of Bidirectional Leukocyte Migration in Interstitial Tissues,鈥 Cell Reports. 2017 May 23; 19(8): 1572-1585.
  10. Hind LE, Lurier EB, Dembo M, Spiller KL, Hammer DA. 鈥淓ffect of M1-M2 Polarization on the Motility and Traction Stresses of Primary Human Macrophages,鈥 Cellular and molecular bioengineering. 2016聽September; 9(3):455-465.
  11. Hind LE, Vincent WJ, Huttenlocher A.聽鈥淟eading from the Back: The Role of the Uropod in Neutrophil Polarization and Migration,鈥澛燚evelopmental Cell. 2016 Jul 25;38(2):161-9.
  12. Yamahashi Y*, Cavnar PJ*, Hind LE*, Berthier E,聽Bennin DA, Beebe D, Huttenlocher A.聽鈥淚ntegrin associated proteins differentially regulate neutrophil polarity and directed migration in 2D and 3D,鈥澛燘iomedical Microdevices. 2015 Oct;17(5):100.聽*These authors contributed equally.
  13. Hind LE, Dembo M, Hammer DA, 鈥淢acrophage motility is driven by frontal-towing with a force magnitude dependent on substrate stiffness,鈥 Integrative Biology, 2015 Apr; 7(4):447-453.
  14. Hind LE, MacKay JL, Cox D, Hammer, DA, 鈥淭wo-dimensional motility of a macrophage cell line on microcontact-printed fibronectin,鈥 Cytoskeleton, 2014 Sep; 71(9):542-554.
  15. Kamat NP, Liao Z, Moses LE, Rawson J, Therien MJ, Dmocjowski IJ, Hammer DA, 鈥淪ensing membrane stress with near IR-emissive porphyrins,鈥 Proc Natl Acad Sci, 2011 Aug 23; 108(34).
  16. Mettallo CM, Azarin SM, Moses LE, Ji L, de Pablo JJ, Palecek SP. 鈥淗uman embryonic stem cell-derived keratinocytes exhibit an epidermal transcription program and undergo epithelial morphogenesis in engineered tissue constructs,鈥 Tissue Engineering, Vol. A, (2009).