Imaging the Alternatively Spliced D Domain of Tenascin C in a Preclinical Model of Inflammatory Bowel Disease

Purpose To image colon-expressed alternatively spliced D domain of tenascin C in preclinical colitis models using near infrared (NIR)-labeled targeted molecular imaging agents. Procedures. A human IgG1 with nanomolar binding affinity specific to the alternatively spliced D domain of tenascin C was g...

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Published in:Molecular imaging and biology 2023-04, Vol.25 (2), p.314-323
Main Authors: Zhang, Liang, Wang, Yuzhen, Homan, Kristoff T., Gaudette, Stephanie M., McCluskey, Andrew J., Chan, Ying, Murphy, Joanne, Abdalla, Mary, Nelson, Christine M., Sun, Victor Z., Erickson, Jamie E., Knight, Heather L., Clabbers, Anca, Sterman, Annette J. Schwartz, Mitra, Soumya
Format: Article
Language:English
Subjects:
Alternative splicing
Animal diseases
Animal models
Animals
Antibodies
Colitis
Colitis - pathology
Colon
Dextran
Dextran sulfate
Dextrans
Drinking water
Extracellular matrix
Humans
Imaging
Immunoglobulin G
Immunohistochemistry
Inflammatory bowel disease
Inflammatory Bowel Diseases
Infrared imagery
Intestine
Matrix protein
Medical imaging
Medicine
Medicine & Public Health
Mice
Near infrared radiation
Proteins
Radiology
Reagents
Research Article
Stability analysis
Tenascin
Tenascin C
Tissue Distribution
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Summary:Purpose To image colon-expressed alternatively spliced D domain of tenascin C in preclinical colitis models using near infrared (NIR)-labeled targeted molecular imaging agents. Procedures. A human IgG1 with nanomolar binding affinity specific to the alternatively spliced D domain of tenascin C was generated. Immunohistochemistry identified disease-specific expression of this extracellular matrix protein in the colon of mice given dextran sulfate sodium in the drinking water. The antibody reagent was labeled with the NIR fluorophore IRDye 800CW via amine chemistry and intravenously dosed to evaluate in vivo targeting specificity. Increasing doses of imaging agent were given to estimate the saturating dose. Results The NIR-labeled proteins successfully targeted colonic lesions in a murine model of colitis. Co-administration of a molar excess competing unlabeled dose reduced normalized uptake in diseased colon by > 70%. Near infrared ex vivo images of colon resected from diseased animals showed saturation at doses exceeding 1 nmol and was confirmed with additional quantitative ex vivo biodistribution. Cellular-level specificity and protein stability were assessed via microscopy. Conclusions Our imaging data suggest the alternatively spliced D domain of tenascin C is a promising target for delivery-based applications in inflammatory bowel diseases.
ISSN:1536-1632
1860-2002
DOI:10.1007/s11307-022-01758-6