Imaging and measuring the biophysical properties of Fc gamma receptors on single macrophages using atomic force microscopy

Biochemical and Biophysical Research Communications

Volumn 438, Issue 4, 2013, Pages 709-714

  Li, Mi ^a,b   Liu, Lianqing ^a   Xi, Ning ^c   Wang, Yuechao ^a   Xiao, Xiubin ^d   Zhang, Weijing ^d  

^a SHENYANG INSTITUTE OF AUTOMATION   (China)

^b UNIVERSITY OF CHINESE ACADEMY OF SCIENCES   (China)

^c CITY UNIVERSITY OF HONG KONG   (Hong Kong)

^d BEIJING INSTITUTE OF MICROBIOLOGY AND EPIDEMIOLOGY   (China)

Author keywords

Antibody; Atomic force microscopy; Fc gamma receptor; Immunotherapy; Macrophage

Indexed keywords

ANTIBODY; FC RECEPTOR; MACROGOL;

ANIMAL CELL; ARTICLE; ATOMIC FORCE MICROSCOPY; BINDING AFFINITY; CELL ADHESION; CELL STRUCTURE; CROSS LINKING; MACROPHAGE; MOLECULAR INTERACTION; MOUSE; NONHUMAN; PRIORITY JOURNAL; SPECTROSCOPY;

EID: 84883278270     PISSN: 0006291X     EISSN: 10902104     Source Type: Journal    
DOI: 10.1016/j.bbrc.2013.07.114     Document Type: Article

References (45)

1. Scott A.M., Wolchok J.D., Old L.J. Antibody therapy of cancer. Nat. Rev. Cancer 2012, 12:278-287.
2. Weiner L.M., Murray J.C., Shuptrine C.W. Antibody-based immunotherapy of cancer. Cell 2012, 148:1081-1084.
3. Cheson B.D., Leonard J.P. Monoclonal antibody therapy for B-cell non-Hodgkin's lymphoma. N. Engl. J. Med. 2008, 359:613-626.
4. Cang S., Mukhi N., Wang K., Liu D. Novel CD20 monoclonal antibodies for lymphoma therapy. J. Hematol. Oncol. 2012, 5:64.
5. Maloney D.G. Anti-CD20 antibody therapy for B-cell lymphomas. N. Engl. J. Med. 2012, 366:2008-2016.
6. Lim S.H., Beers S.A., French R.R., Johnson P.W.M., Glennie M.J., Cragg K.S. Anti-CD20 monoclonal antibodies: historical and future perspectives. Haematologica 2010, 95:135-143.
7. Cartron G., Watier H., Golay J., Solal-Celigny P. From the bench to the bedside: ways to improve rituximab efficacy. Blood 2004, 104:2635-2642.
8. Reefman E., Kay J.G., Wood S.M., Offenhauser C., Brown D.L., Roy S., Stanley A.C., Low P.C., Manderson A.P., Stow J.L. Cytokine secretion is distinct from secretion of cytotoxic granules in NK cells. J. Immunol. 2010, 184:4852-4862.
9. Oflazoglu E., Audoly L.P. Evolution of anti-CD20 monoclonal antibody therapeutics in oncology. MAbs 2010, 2:14-19.
10. Glennie M.J., French R.R., Cragg M.S., Taylor R.P. Mechanisms of killing by anti-CD20 monoclonal antibodies. Mol. Immunol. 2007, 44:3823-3837.
11. Chan A.C., Carter P.J. Therapeutic antibodies for autoimmunity and inflammation. Nat. Rev. Immunol. 2010, 10:301-316.
12. Alduaij W., Illidge T.M. The future of anti-CD20 monoclonal antibodies: are we making progress. Blood 2011, 117:2993-3001.
13. Weiner G.J. Rituximab: mechanism of action. Semin. Hematol. 2010, 47:115-123.
14. Rezvani A.R., Maloney D.G. Rituximab resistance. Best Prac. Res. Clin. Haematol. 2011, 24:203-216.
15. Taylor R.P., Lindorfer M.A. Antigenic modulation and rituximab resistance. Semin. Hematol. 2010, 47:124-132.
16. Sawyers C.L. The cancer biomarker problem. Nature 2008, 452:548-552.
17. Hamburg M.A., Collins F.S. The path to personalized medicine. N. Engl. J. Med. 2010, 363:301-304.
18. Xie X.S., Yu J., Yang W.Y. Living cells as test tubes. Science 2006, 312:228-230.
19. Neuman K.C., Nagy A. Single-molecule force spectroscopy: optical tweezers, magnetic tweezers and atomic force microscopy. Nat. Methods 2008, 5:491-505.
20. Oddershede L.B. Force probing of individual molecules inside the living cell is now a reality. Nat. Chem. Biol. 2012, 8:879-886.
21. Muller D.J., Dufrene Y.F. Force nanoscopy of living cells. Curr. Biol. 2011, 21:212-216.
22. Binnig G., Quate C.F., Gerber C. Atomic force microscope. Phys. Rev. Lett. 1986, 56:930-933.
23. Muller D.J., Helenius J., Alsteens D., Dufrene Y.F. Force probing surfaces of living cells to molecular resolution. Nat. Chem. Biol. 2009, 5:383-390.
24. Heinisch J.J., Dupres V., Wilk S., Jendretzki A., Dufrene Y.F. Single-molecule atomic force microscopy reveals clustering of the yeast plasma-membrane sensor Wsc1. PLoS One 2010, 5:e11104.
25. Li M., Liu L., Xi N., Wang Y., Dong Z., Li G., Xiao X., Zhang W. Detecting CD20-rituximab interaction forces using AFM single-molecule force spectroscopy. Chin. Sci. Bull. 2011, 56:3829-3835.
26. Hutter J.L., Bechhoefer J. Calibration of atomic-force microscope tips. Rev. Sci. Instrum. 1993, 64:1868-1873.
27. Nimmerjahn F., Ravetch J.V. Fc receptors as regulators of immune responses. Nat. Rev. Immunol. 2008, 8:34-47.
28. Nimmerjahn F., Ravetch J.V. Fc receptors: old friends and new family members. Immunity 2006, 24:19-28.
29. Pham T., Mero P., Booth J.W. Dynamics of macrophage trogocytosis of rituximab-coated B cells. PLoS One 2011, 6:e14498.
30. El-Kirat-Chatel S., Dufrene Y.F. Nanoscale imaging of the candida-macrophage interaction using correlated fluorescence-atomic force microscopy. ACS Nano 2012, 6:10792-10799.
31. Mogilner A., Keren K. The shape of motile cells. Curr. Biol. 2009, 19:762-771.
32. Keren K., Pincus Z., Allen G.M., Barnhart E.L., Marriott G., Mogilner A., Theriot J.A. Mechanism of shape determination in motile cells. Nature 2008, 453:475-480.
33. Nishimura S., Manabe I., Nagasaki M., Eto K., Yamashita H., Ohsugi M., Otsu M., Hara K., Ueki K., Sugiura S., Yoshimura K., Kadowaki T., Nagai R. CD8+ effector T cells contribute to macrophage recruitment and adipose tissue inflammation in obesity. Nat. Med. 2009, 15:914-920.
34. Dufrene Y.F., Evans E., Engel A., Helenius J., Gaub H.E., Muller D.J. Five challenges to brining single-molecule force spectroscopy into living cells. Nat. Methods 2011, 8:123-127.
35. Hinterdorfer P., Dufrene Y.F. Detection and localization of single molecular recognition events using atomic force microscopy. Nat. Methods 2006, 3:347-355.
36. Shi X., Xu L., Yu J., Fang X. Study of inhibition effect of herceptin on interaction between heregulin and erbB receptors HER3/HER2 by single-molecule force spectroscopy. Exp. Cell Res. 2009, 315:2847-2855.
37. Bell G.I. Models for the specific adhesion of cells to cells. Science 1978, 200:618-627.
38. Evans E., Ritchie K. Dynamic strength of molecular adhesion bonds. Biophys. J. 1997, 72:1541-1555.
39. Medalsy I.D., Muller D.J. Nanomechanical properties of proteins and membranes depend on loading rate and electrostatic interactions. ACS Nano 2013, 7:2642-2650.
40. Li Y., Qiao H., Yan W., Zhang J., Xing C., Wang H., Zhang B., Tang J. Molecular recognition force spectroscopy study of the dynamic interaction between aptamer GBI-10 and extracellular matrix protein tenascin-C on human glioblastoma cell. J. Mol. Recognit. 2013, 26:46-50.
41. Zhang X., Shi X., Xu L., Yuan J., Fang X. Atomic force microscopy study of the effect of HER 2 antibody on EGF mediated ErbB ligand-receptor interaction. Nanomedicine: NBM 2013, 9:627-635.
42. Li M., Xiao X., Liu L., Xi N., Wang Y., Dong Z., Zhang W. Atomic force microscopy study of the antigen-antibody binding force on patient cancer cells based on ROR1 fluorescence recognition. J. Mol. Recognit. 2013, 26:432-438.
43. Dupres V., Menozzi F.D., Locht C., Clare B.H., Abbott N.L., Cuenot S., Bompard C., Raze D., Dufrene Y.F. Nanoscale mapping and functional analysis of individual adhesions on living bacteria. Nat. Methods 2005, 2:515-520.
44. Hu M., Chen J., Wang J., Wang X., Ma S., Cai J., Chen C.Y., Chen Z.W. AFM- and NSOM-based force spectroscopy and distribution analysis of CD69 molecules on human CD4+ T cell membrane. J. Mol. Recognit. 2009, 22:516-520.
45. Verbelen C., Dufrene Y.F. Direct measurement of mycobacterium-fibronectin interactions. Integr. Biol. 2009, 1:296-300.