https://orcid.org/0000-0002-7972-9122
References
- Kaplon H, Reichert JM. Antibodies to watch in 2018. MAbs. 2018;10:183–203.
- Lagasse HA, Alexaki A, Simhadri VL, Katagiri NH, Jankowski W, Sauna ZE, Kimchi-Sarfaty C. Recent advances in (therapeutic protein) drug development. F1000Res. 2017;6:113.
- Lee JW, Salimi-Moosavi H. Bioanalysis of target biomarker and pk/pd relevancy during the development of biotherapeutics. Bioanalysis. 2012;4:2513–23.
- DeSilva B, Smith W, Weiner R, Kelley M, Smolec J, Lee B, Khan M, Tacey R, Hill H, Celniker A. Recommendations for the bioanalytical method validation of ligand-binding assays to support pharmacokinetic assessments of macromolecules. Pharm Res. 2003;20:1885–900.
- Kuang B, King L, Wang HF. Therapeutic monoclonal antibody concentration monitoring: free or total? Bioanalysis. 2010;2:1125–40.
- Talbot JJ, Calamba D, Pai M, Ma M, Thway TM. Measurement of free versus total therapeutic monoclonal antibody in pharmacokinetic assessment is modulated by affinity, incubation time, and bioanalytical platform. Aaps J. 2015;17:1446–54.
- Li H, Ortiz R, Tran L, Hall M, Spahr C, Walker K, Laudemann J, Miller S, Salimi-Moosavi H, Lee JW. General lc-ms/ms method approach to quantify therapeutic monoclonal antibodies using a common whole antibody internal standard with application to preclinical studies. Anal Chem. 2012;84:1267–73.
- Salimi-Moosavi H, Winters A, Abbott C, Patel J, Hager T, Patel V, Shih J, Zhuang Y, Ma M. A multifactorial screening strategy to identify anti-idiotypic reagents for bioanalytical support of antibody therapeutics. Anal Biochem. 2015;470:52–60.
- Basalp A, Yucel F. Development of mouse hybridomas by fusion of myeloma cells with lymphocytes derived from spleen, lymph node, and bone marrow. Hybrid Hybridomics. 2003;22:329–31.
- Kohler G, Milstein C. Continuous cultures of fused cells secreting antibody of predefined specificity. Nature. 1975;256:495–97.
- Bradbury AR, Sidhu S, Dubel S, McCafferty J. Beyond natural antibodies: the power of in vitro display technologies. Nat Biotechnol. 2011;29:245–54.
- Schmitt JJ, Zimmermann U, Neil GA. Efficient generation of stable antibody forming hybridoma cells by electrofusion. Hybridoma. 1989;8:107–15.
- Clackson T, Hoogenboom HR, Griffiths AD, Winter G. Making antibody fragments using phage display libraries. Nature. 1991;352:624.
- Meijer PJ, Andersen PS, Haahr Hansen M, Steinaa L, Jensen A, Lantto J, Oleksiewicz MB, Tengbjerg K, Poulsen TR, Coljee VW, et al. Isolation of human antibody repertoires with preservation of the natural heavy and light chain pairing. J Mol Biol. 2006;358(3):764–72.
- Hu D, Hu S, Wan W, Xu M, Du R, Zhao W, Gao X, Liu J, Liu H, Hong J. Effective optimization of antibody affinity by phage display integrated with high-throughput DNA synthesis and sequencing technologies. PLoS One. 2015;10:e0129125.
- Fitzgerald V, Leonard P. Single cell screening approaches for antibody discovery. Methods. 2017;116:34–42.
- Seah YFS, Hu H, Merten CA. Microfluidic single-cell technology in immunology and antibody screening. Mol Aspects Med. 2018;59:47–61.
- Voigt A, Semenova T, Yamamoto J, Etienne V, Nguyen CQ. Therapeutic antibody discovery in infectious diseases using single-cell analysis. Adv Exp Med Biol. 2018;1068:89–102.
- Lecault V, Vaninsberghe M, Sekulovic S, Knapp DJ, Wohrer S, Bowden W, Viel F, McLaughlin T, Jarandehei A, Miller M, et al. High-throughput analysis of single hematopoietic stem cell proliferation in microfluidic cell culture arrays. Nat Methods. 2011;8(7):581–86.
- Mazutis L, Gilbert J, Ung WL, Weitz DA, Griffiths AD, Heyman JA. Single-cell analysis and sorting using droplet-based microfluidics. Nat Protoc. 2013;8:870–91.
- Liu X, Painter RE, Enesa K, Holmes D, Whyte G, Garlisi CG, Monsma FJ, Rehak M, Craig FF, Smith CA. High-throughput screening of antibiotic-resistant bacteria in picodroplets. Lab Chip. 2016;16:1636–43.
- Story CM, Papa E, Hu CC, Ronan JL, Herlihy K, Ploegh HL, Love JC. Profiling antibody responses by multiparametric analysis of primary b cells. Proc Natl Acad Sci U S A. 2008;105:17902–07.
- Jin A, Ozawa T, Tajiri K, Obata T, Kondo S, Kinoshita K, Kadowaki S, Takahashi K, Sugiyama T, Kishi H, et al. A rapid and efficient single-cell manipulation method for screening antigen-specific antibody-secreting cells from human peripheral blood. Nat Med. 2009;15(9):1088–92.
- Ronan JL, Story CM, Papa E, Love JC. Optimization of the surfaces used to capture antibodies from single hybridomas reduces the time required for microengraving. J Immunol Methods. 2009;340:164–69.
- Fitzgerald V, Manning B, O’Donnell B, O’Reilly B, O’Sullivan D, O’Kennedy R, Leonard P. Exploiting highly ordered subnanoliter volume microcapillaries as microtools for the analysis of antibody producing cells. Anal Chem. 2015;87:997–1003.
- Tiller T, Busse CE, Wardemann H. Cloning and expression of murine ig genes from single b cells. J Immunol Methods. 2009;350:183–93.
- Haessler U, Reddy ST. Using next-generation sequencing for discovery of high-frequency monoclonal antibodies in the variable gene repertoires from immunized mice. Methods Mol Biol. 2014;1131:191–203.
- Valley JK, Neale S, Hsu HY, Ohta AT, Jamshidi A, Wu MC. Parallel single-cell light-induced electroporation and dielectrophoretic manipulation. Lab Chip. 2009;9:1714–20.
- Chiou PY, Ohta AT, Wu MC. Massively parallel manipulation of single cells and microparticles using optical images. Nature. 2005;436:370–72.
- Hsu HY, Ohta AT, Chiou PY, Jamshidi A, Neale SL, Wu MC. Phototransistor-based optoelectronic tweezers for dynamic cell manipulation in cell culture media. Lab Chip. 2010;10:165–72.
- Beaumont KG, Hamou W, Bozinovic N, Silvers TR, Shah H, Dave A, Allette K, Strahl M, Wang Y-C, Arib H, et al. Multiparameter cell characterization using nanofluidic technology facilitates real-time phenotypic and genotypic elucidation of intratumor heterogeneity. bioRxiv. 2018;457010.
- Mocciaro A, Roth TL, Bennett HM, Soumillon M, Shah A, Hiatt J, Chapman K, Marson A, Lavieu G. Light-activated cell identification and sorting (lacis) for selection of edited clones on a nanofluidic device. Commun Biol. 2018;1:41.
- Le K, Tan C, Gupta S, Guhan T, Barkhordarian H, Lull J, Stevens J, Munro T. A novel mammalian cell line development platform utilizing nanofluidics and optoelectro positioning technology. Biotechnol Prog. 2018;34:1438–46.
- Smith KG, Hewitson TD, Nossal GJ, Tarlinton DM. The phenotype and fate of the antibody-forming cells of the splenic foci. Eur J Immunol. 1996;26:444–48.
- Kurosawa N, Yoshioka M, Isobe M. Target-selective homologous recombination cloning for high-throughput generation of monoclonal antibodies from single plasma cells. BMC Biotechnol. 2011;11:39.
- Tiller T. Single b cell antibody technologies. N Biotechnol. 2011;28:453–57.
- Clargo AM, Hudson AR, Ndlovu W, Wootton RJ, Cremin LA, O’Dowd VL, Nowosad CR, Starkie DO, Shaw SP, Compson JE, et al. The rapid generation of recombinant functional monoclonal antibodies from individual, antigen-specific bone marrow-derived plasma cells isolated using a novel fluorescence-based method. MAbs. 2014;6(1):143–59.
- Starkie DO, Compson JE, Rapecki S, Lightwood DJ. Generation of recombinant monoclonal antibodies from immunised mice and rabbits via flow cytometry and sorting of antigen-specific igg+ memory b cells. PLoS One. 2016;11:e0152282.
- Ouisse LH, Gautreau-Rolland L, Devilder MC, Osborn M, Moyon M, Visentin J, Halary F, Bruggemann M, Buelow R, Anegon I, et al. Antigen-specific single b cell sorting and expression-cloning from immunoglobulin humanized rats: A rapid and versatile method for the generation of high affinity and discriminative human monoclonal antibodies. BMC Biotechnol. 2017;17(1):3.
- Pracht K, Meinzinger J, Daum P, Schulz SR, Reimer D, Hauke M, Roth E, Mielenz D, Berek C, Corte-Real J, et al. A new staining protocol for detection of murine antibody-secreting plasma cell subsets by flow cytometry. Eur J Immunol. 2017;47(8):1389–92.
- Green LL. Antibody engineering via genetic engineering of the mouse: xenomouse strains are a vehicle for the facile generation of therapeutic human monoclonal antibodies. J Immunol Methods. 1999;231:11–23.
- Kilpatrick KE, Wring SA, Walker DH, Macklin MD, Payne JA, Su JL, Champion BR, Caterson B, McIntyre GD. Rapid development of affinity matured monoclonal antibodies using rimms. Hybridoma. 1997;16:381–89.
- Wring SA, Kilpatrick KE, Hutchins JT, Witherspoon SM, Ellis B, Jenner WN, Serabjit-Singh C. Shorter development of immunoassay for drugs: application of the novel rimms technique enables rapid production of monoclonal antibodies to ranitidine. J Pharm Biomed Anal. 1999;19:695–707.