Research Papers:
Radiolabelled polymeric IgA: from biodistribution to a new molecular imaging tool in colorectal cancer lung metastases
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Abstract
Helene Carpenet1,2, Armelle Cuvillier3, Aurélie Perraud2, Ophélie Martin4, Gaël Champier3, Marie-Odile Jauberteau2, Jacques Monteil1,2,4 and Isabelle Quelven1,2,4
1Nuclear Medicine Department, Dupuytren University Hospital, 87042 Limoges, France
2EA 3842 – Cellular Homeostasis and Diseases, Faculty of Medicine, University of Limoges, 87025 Limoges, France
3B Cell Design SAS, 87000 Limoges, France
4UMR CNRS 7276 – CRIBL, University of Limoges, 87025 Limoges, France
Correspondence to:
Isabelle Quelven, email: [email protected]
Armelle Cuvillier, email: [email protected]
Keywords: anti-CEA IgA, radiolabelling, mucosal biodistribution, metastases, colorectal cancer imaging
Received: December 21, 2016 Accepted: July 03, 2017 Published: July 27, 2017
ABSTRACT
By radiolabelling monomeric (m) and polymeric (p) IgA with technetium 99m (99mTc), this study assessed IgA biodistribution and tumour-targeting potency. IgA directed against carcinoembryonic antigen (CEA), a colorectal cancer marker, was selected to involve IgA mucosal tropism.
Ig was radiolabelled with 99mTc-tricarbonyl after derivatisation by 2-iminothiolane. 99mTc-IgA was evaluated by in vitro analysis. The biodistributions of radiolabelled anti-CEA mIgA, pIgA and IgG were compared in normal mice. Anti-CEA pIgA tumour uptake was studied in mice bearing the WiDr caecal orthotopic graft.
IgA radiolabelling was obtained with a high yield, was stable in PBS and murine plasma, and did not alter IgA binding functionality (Kd ≈ 25 nM). Biodistribution studies in normal mice confirmed that radiolabelled pIgA – and to a lesser extent, mIgA – showed strong and fast mucosal tropism and a shorter serum half-life than IgG. In caecal tumour model mice, evaluation of the anti-CEA-pIgA biodistribution showed a high uptake in lung metastases, confirmed by histological analysis. However, no radioactivity uptake increase in the tumoural caecum was discerned from normal intestinal tissue, probably due to high IgA caecal natural tropism. In microSPECT/CT imaging, 99mTc-IgA confirmed its diagnostic potency of tumour in mucosal tissue, even if detection threshold by in vivo imaging was higher than post mortem studies. Contribution of the FcαRI receptor, studied with transgenic mouse model (Tsg SCID-CD89), did not appear to be determinant in 99mTc-IgA uptake.
Pre-clinical experiments highlighted significant differences between 99mTc-IgA and 99mTc-IgG biodistributions. Furthermore, tumoural model studies suggested potential targeting potency of pIgA in mucosal tissues.
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