http://orcid.org/0000-0002-3464-4715
References
- Glaus A. Uber multiples myelozytom mit egnartigen, zum teil cristallahnlichen zelleingnlagerungen kombiniert mit elastolyse und ausgedehnter amyloidose und verkalkung. Virchows Arch Pathol Anatomical Record. 1917;223:301-39. doi:10.1007/BF02034325
- White RG. Observations on the formation and nature of Russell bodies. British journal of experimental pathology. 1954;35:365-76. PMID:13190123
- Goldberg AF, Deane HW. A comparative study of some staining properties of crystals in a lympho-plasmocytoid cell, of Russell bodies in plasmocytes, and of amyloids–with special emphasis on their isoelectric points. Blood. 1960;16:1708-21. PMID:13706437
- Goldberg AF. An unusual lymphomatous disease associated with intracytoplasmic crystals in lymphoplasmocytoid cells, Blood. 1960;16:1693-1707. PMID:13706439
- Agashe SR, Pol JN, Kadkol GA, Patil PP. Crystalline inclusions in myeloma cells: Need to go beyond morphologic curiosity. Indian journal of pathology & microbiology. 2017;60:139-40.
- Hasegawa H. Aggregates, crystals, gels, and amyloids: intracellular and extracellular phenotypes at the crossroads of immunoglobulin physicochemical property and cell physiology. International journal of cell biology. 2013;2013:604867. doi:10.1155/2013/604867. PMID:23533417
- Jack HM, Sloan B, Grisham G, Reason D, Wabl M. Large cytoplasmic inclusion body kappa-chain has unusual intrachain disulfide bonding. J Immunol. 1993;150:4928-33. PMID:8388424
- Shultz LD, Coman DR, Lyons BL, Sidman CL, Taylor S. Development of plasmacytoid cells with Russell bodies in autoimmune “viable motheaten” mice. The American journal of pathology. 1987;127:38-50. PMID:3551623
- Hurez D, Flandrin G, Preud'homme JL, Seligmann M. Unreleased intracellular monoclonal macroglobulin in chronic lymphocytic leukaemia. Clinical and experimental immunology. 1972;10:223-34.
- Cawley JC, Barker CR, Britchford RD, Smith JL. Intracellular IgA immunoglobulin crystals in chronic lymphocytic leukaemia. Clinical and experimental immunology. 1973;13:407-16.
- Feremans WW, Neve P, Caudron M. IgM lambda cytoplasmic crystals in three cases of immunocytoma: a clinical, cytochemical, and ultrastructural study. Journal of clinical pathology. 1978;31:250-8. doi:10.1136/jcp.31.3.250. PMID:417092
- Ralfkiaer E, Hou-Jensen K, Geisler C, Plesner T, Henschel A, Hansen MM. Cytoplasmic inclusions in lymphocytes of chronic lymphocytic leukaemia. A report of 10 cases, Virchows Archiv. A, Pathological anatomy and histology. 1982;395:227-36.
- Stefani S, Chandra S, Schrek R, Tonaki H, Knospe WH. Endoplasmic reticulum–associated structures in lymphocytes from patients with chronic lymphocytic leukemia. Blood. 1977;50:125-39. PMID:194637
- Yamamoto T, Hishida A, Honda N, Ito I, Shirasawa H, Nagase M. Crystal-storing histiocytosis and crystalline tissue deposition in multiple myeloma. Archives of pathology & laboratory medicine. 1991;115:351-4.
- Schaefer HE. Gammopathy-related crystal-storing histiocytosis, pseudo- and pseudo-pseudo-Gaucher cells. Critical commentary and mini-review, Pathology, research and practice. 1996;192:1152-62. doi:10.1016/S0344-0338(96)80037-9
- Rengers JU, Touchard G, Decourt C, Deret S, Michel H, Cogne M. Heavy and light chain primary structures control IgG3 nephritogenicity in an experimental model for cryocrystalglobulinemia, Blood. 2000;95:3467-72. PMID:10828030
- Hasegawa H, Wendling J, He F, Trilisky E, Stevenson R, Franey H, Kinderman F, Li G, Piedmonte DM, Osslund T, Shen M, Ketchem RR. In vivo crystallization of human IgG in the endoplasmic reticulum of engineered Chinese hamster ovary (CHO) cells. The Journal of biological chemistry. 2011;286:19917-31. doi:10.1074/jbc.M110.204362. PMID:21464137
- Hasegawa H, Forte C, Barber I, Turnbaugh S, Stoops J, Shen M, Lim AC. Modulation of in vivo IgG crystallization in the secretory pathway by heavy chain isotype class switching and N-linked glycosylation. Biochimica et biophysica acta. 2014;1843;1325-38.
- He F, Becker GW, Litowski JR, Narhi LO, Brems DN, Razinkov VI. High-throughput dynamic light scattering method for measuring viscosity of concentrated protein solutions, Analytical biochemistry. 2010;399:141-3.
- Wypych J, Li M, Guo A, Zhang Z, Martinez T, Allen MJ, Fodor S, Kelner DN, Flynn GC, Liu YD, Bondarenko PV, Ricci MS, Dillon TM, Balland A. Human IgG2 antibodies display disulfide-mediated structural isoforms. The Journal of biological chemistry. 2008;283:16194-16205. doi:10.1074/jbc.M709987200. PMID:18339624
- Stoops J, Byrd S, Hasegawa H. Russell body inducing threshold depends on the variable domain sequences of individual human IgG clones and the cellular protein homeostasis. Biochimica et biophysica acta. 2012;1823:1643-57. doi:10.1016/j.bbamcr.2012.06.015. PMID:22728328
- McCann SR, Whelan A, Greally J. Intracellular lambda light chain inclusions in chronic lymphocytic leukaemia. British journal of haematology. 1978;38:367-71. doi:10.1111/j.1365-2141.1978.tb01056.x. PMID:205239
- Reason DC. A murine hybridoma with large cytoplasmic inclusions of kappa light chains. The Journal of experimental medicine. 1987;165:578-583. doi:10.1084/jem.165.2.578. PMID:3029271
- Hasegawa H, Patel N, Lim AC. Overexpression of cryoglobulin-like single-chain antibody induces morular cell phenotype via liquid-liquid phase separation in the secretory pathway organelles. The FEBS journal. 2015;282:2777-95. doi:10.1111/febs.13332. PMID:26036200
- Stich MH, Swiller AI, Morrison M. The grape cell of multiple myeloma. American journal of clinical pathology. 1955;25:601-602. PMID:14361356
- Hasegawa H, Hsu A, Tinberg CE, Siegler KE, Nazarian AA, Tsai MM. Single amino acid substitution in LC-CDR1 induces Russell body phenotype that attenuates cellular protein synthesis through eIF2alpha phosphorylation and thereby downregulates IgG secretion despite operational secretory pathway traffic. mAbs. 2017;9:854-873; PMID: 28379093
- Hasegawa H, Woods CE, Kinderman F, He F, Lim AC. Russell body phenotype is preferentially induced by IgG mAb clones with high intrinsic condensation propensity: relations between the biosynthetic events in the ER and solution behaviors in vitro. mAbs. 2014;6:1518-1532. doi:10.4161/mabs.36242. PMID:25484054
- Paroutis P, Touret N, Grinstein S. The pH of the secretory pathway: measurement, determinants, and regulation. Physiology. 2004;19:207-15. doi:10.1152/physiol.00005.2004. PMID:15304635
- Yadav S, Laue TM, Kalonia DS, Singh SN, Shire SJ. The influence of charge distribution on self-association and viscosity behavior of monoclonal antibody solutions. Molecular pharmaceutics. 2012;9:791-802.
- Yadav S, Sreedhara A, Kanai S, Liu J, Lien S, Lowman H, Kalonia DS, Shire SJ. Establishing a link between amino acid sequences and self-associating and viscoelastic behavior of two closely related monoclonal antibodies. Pharmaceutical research. 2011;28:1750-64. doi:10.1007/s11095-011-0410-0. PMID:21626060
- Orsi A, Bakunts A, Lari F, Tadè L, Cattaneo A, Sitia R, Raimondi A, Bachi A, van Anken E, Vitale M. The unfolded protein response turns from pro-survival to pro-death to cap the extent of endoplasmic reticulum expansion. bioRxiv. 2017. [Advance online publication]. https://doi.org/10.1101/134726
- Berman HM, Westbrook J, Feng Z, Gilliland G, Bhat TN, Weissig H, Shindyalov IN, Bourne PE. The Protein Data Bank. Nucleic acids research. 2000;28:235-42. doi:10.1093/nar/28.1.235. PMID:10592235
- Honegger A, Pluckthun A. Yet another numbering scheme for immunoglobulin variable domains: an automatic modeling and analysis tool. Journal of molecular biology. 2001;309:657-70. doi:10.1006/jmbi.2001.4662. PMID:11397087