Development of Long-acting Formulation for Hydrophobic Kifunensine Analogues as Potent Inhibitors of Type I Mannosidase Enzymes (Dataset)
Abdelaziz, Moustafa Groer, Chad Weiner, Jack Kurhade, Suresh Ross, Patrick Craven, Mark Gong, Huan WU, SA Farrell, Mark Forrest, Marcus Laird
Abdelaziz, Moustafa
Groer, Chad
Weiner, Jack
Kurhade, Suresh
Ross, Patrick
Craven, Mark
Gong, Huan
WU, SA
Farrell, Mark
Forrest, Marcus Laird
Abstract
Aberrant protein glycosylation is known to induce immune suppression, which can contribute to cancer malignancy and metastasis. The enzymes responsible for glycan biosynthesis may be modulated as a therapeutic strategy to improve the anticancer immune response. Kifunensine is a potent inhibitor of one of these enzymes, type I α-mannosidase, which can increase cell surface glycosylation through upregulation of high mannose N-glycans over branched and complex N-glycans. However, the high polarity of Kifunensine limits its cell permeability. Here, we report two hydrophobic analogues of Kifunensine designed for improved cell permeability. The hydrophobic analogues were formulated in an ethyl oleate oil vehicle to prolong release in vivo. The therapeutic efficiency of the developed formulation was examined using an immunocompetent mice model of colon cancer, which showed a marginal delay in the tumor growth with treatment. Immunofluorescence analysis demonstrated overexpression of high mannose N-glycans after treatment with both analogues, but only a slight increase in immune cell infiltration was observed. While previously reported studies showed significant upregulation of immune cells with Kifunensine, the present study suggests that Kifunensine may have limited efficacy as a monotherapy in colon cancer.
Description
This dataset accompanies the article, Development of Long-acting Formulation for Hydrophobic Kifunensine Analogues as Potent Inhibitors of Type I Mannosidase Enzymes, currently in press.
Date
2025-11-03
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Keywords
Kifunensine, Type I mannosidase inhibitors, Long-acting formulation, High mannose N-glycans, Ethyl oleate