Sunil Thomas1, Joanna M Mercado2,3, James DuHadaway2, Kate DiGuilio2,3, James M Mullin2,3, George C Prendergast2,4,5. 1. Lankenau Institute for Medical Research, 100 Lancaster Avenue, Wynnewood, PA, 19096, USA. thomass-02@mlhs.org. 2. Lankenau Institute for Medical Research, 100 Lancaster Avenue, Wynnewood, PA, 19096, USA. 3. Division of Gastroenterology, Lankenau Medical Center, Wynnewood, PA, 19096, USA. 4. Department of Pathology, Anatomy and Cell Biology, Sidney Kimmel Medical School, Philadelphia, PA, 19107, USA. 5. Kimmel Cancer Center, Thomas Jefferson University, Philadelphia, PA, 19107, USA.
Abstract
BACKGROUND: Ulcerative colitis (UC) is associated with defects in colonic epithelial barriers as well as inflammation of the colon mucosa resulting from the recruitment of lymphocytes and neutrophils in the lamina propria. Patients afflicted with UC are at increased risk of colorectal cancer. Currently, UC management employs general anti-inflammatory strategies associated with a variety of side effects, including heightened risks of infection, in patients where the therapy is variably effective. Thus, second generation drugs that can more effectively and selectively limit UC are desired. AIM: Building on genetic evidence that attenuation of the Bin1 (Bridging integrator 1) gene can limit UC pathogenicity in the mouse, we pursued Bin1 targeting as a therapeutic option. METHODS: Mice were injected with a single dose of Bin1 mAb followed by oral administration of 3 % DSS in water for 7 days. RESULTS: In this study, we offer preclinical proof of concept for a monoclonal antibody (mAb) targeting the Bin1 protein that blunts UC pathogenicity in a mouse model of experimental colitis. Administration of Bin1 mAb reduced colitis morbidity in mice; whereas unprotected mice is characterized by severe lesions throughout the mucosa, rupture of the lymphoid follicle, high-level neutrophil and lymphocyte infiltration into the mucosal and submucosal areas, and loss of surface crypts. In vitro studies in human Caco-2 cells showed that Bin1 antibody altered the expression of tight junction proteins and improved barrier function. CONCLUSIONS: Our results suggest that a therapy based on Bin1 monoclonal antibody supporting mucosal barrier function and protecting integrity of the lymphoid follicle could offer a novel strategy to treat UC and possibly limit risks of colorectal cancer.
BACKGROUND:Ulcerative colitis (UC) is associated with defects in colonic epithelial barriers as well as inflammation of the colon mucosa resulting from the recruitment of lymphocytes and neutrophils in the lamina propria. Patients afflicted with UC are at increased risk of colorectal cancer. Currently, UC management employs general anti-inflammatory strategies associated with a variety of side effects, including heightened risks of infection, in patients where the therapy is variably effective. Thus, second generation drugs that can more effectively and selectively limit UC are desired. AIM: Building on genetic evidence that attenuation of the Bin1 (Bridging integrator 1) gene can limit UC pathogenicity in the mouse, we pursued Bin1 targeting as a therapeutic option. METHODS:Mice were injected with a single dose of Bin1 mAb followed by oral administration of 3 % DSS in water for 7 days. RESULTS: In this study, we offer preclinical proof of concept for a monoclonal antibody (mAb) targeting the Bin1 protein that blunts UC pathogenicity in a mouse model of experimental colitis. Administration of Bin1 mAb reduced colitis morbidity in mice; whereas unprotected mice is characterized by severe lesions throughout the mucosa, rupture of the lymphoid follicle, high-level neutrophil and lymphocyte infiltration into the mucosal and submucosal areas, and loss of surface crypts. In vitro studies in human Caco-2 cells showed that Bin1 antibody altered the expression of tight junction proteins and improved barrier function. CONCLUSIONS: Our results suggest that a therapy based on Bin1 monoclonal antibody supporting mucosal barrier function and protecting integrity of the lymphoid follicle could offer a novel strategy to treat UC and possibly limit risks of colorectal cancer.
Authors: Alexander J Muller; James B DuHadaway; P Scott Donover; Erika Sutanto-Ward; George C Prendergast Journal: Nat Med Date: 2005-02-13 Impact factor: 53.440
Authors: Xuexuan Wang; Mary Carmen Valenzano; Joanna M Mercado; E Peter Zurbach; James M Mullin Journal: Dig Dis Sci Date: 2012-08-19 Impact factor: 3.199
Authors: Liping Su; Le Shen; Daniel R Clayburgh; Sam C Nalle; Erika A Sullivan; Jon B Meddings; Clara Abraham; Jerrold R Turner Journal: Gastroenterology Date: 2008-11-06 Impact factor: 22.682
Authors: Sunil Thomas; Jacques Izard; Emily Walsh; Kristen Batich; Pakawat Chongsathidkiet; Gerard Clarke; David A Sela; Alexander J Muller; James M Mullin; Korin Albert; John P Gilligan; Katherine DiGuilio; Rima Dilbarova; Walker Alexander; George C Prendergast Journal: Cancer Res Date: 2017-03-14 Impact factor: 12.701
Authors: Li Na Sun; Cheng Xing; Zheng Zhi; Yao Liu; Liang-Yan Chen; Tong Shen; Qun Zhou; Yu Hong Liu; Wen Juan Gan; Jing-Ru Wang; Yong Xu; Jian Ming Li Journal: Oncotarget Date: 2017-05-25