Effect of hypoxia on Siglec-7 and Siglec-9 receptors and sialoglycan ligands and impact of their targeting on NK cell cytotoxicity

Husam Nawafleh, Nagwa Zeinelabdin, Michelle K. Greene, Anitha Krishnan, Linus Ho, Mohamed Genead, Derek Kunimoto, Christopher J. Scott, Michael Tolentino, Salem Chouaib

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Abstract

Background/Objectives: Tumor microenvironmental hypoxia is an established hallmark of solid tumors. It significantly contributes to tumor aggressiveness and therapy resistance and has been reported to affect the balance of activating/inhibitory surface receptors’ expression and activity on NK cells. In the current study, we investigated the impact of hypoxia on the surface expression of Siglec-7 and Siglec-9 (Sig-7/9) and their ligands in NK cells and tumor target cells. The functional consequence of Siglec blockage using nanoparticles specifically designed to target and block Sig-7/9 receptors on NK cell cytotoxicity was elucidated. Methods: CD56⁺ CD3− NK cells were isolated from PBMCs along with an NK-92 clone and used as effector cells, while MCF-7 and K562 served as target cells. All cells were incubated under normoxic or hypoxic conditions for 24 h. To assess Siglec-7 and Siglec-9 receptor expression, U937, NK-92, and primary NK cells were stained with PE-labeled antibodies against CD328 Siglec-7/9. Interactions between Siglec-7/9 and their sialylated ligands, along with their functional impact on NK cell activity, were evaluated using polymeric nanoparticles coated with a sialic acid mimetic. Immunological synapse formation and live-cell imaging were performed with a ZEISS LSM 800 with Airyscan at 10× magnification for 24 h. Results: Our data indicate that hypoxia had no effect on the expression of Siglec-7/9 receptors by NK cells. In contrast, hypoxic stress resulted in an increase in Siglec-7 sialoglycan ligand expression by a sub-population of NK target cells. Using polymeric nanoparticles coated with a sialic acid mimetic that binds both Siglec-7 and -9 (Sig-7/9 NP), we demonstrated that incubation of these nanoparticles with NK cells resulted in increased immunological synapse formation, granzyme B accumulation, and killing of NK target cells. These studies indicate that hypoxic stress may have an impact on NK cell-based therapies and highlight the need to consider the hypoxic microenvironment for tumor-specific glycosylation. Conclusions: Our findings point to the role of Siglec–sialylated glycan interactions in hypoxic stress-induced NK cell dysfunction and recommend the potential integration of the manipulation of this axis through the targeting of Siglecs in future cancer immunotherapy strategies.
Original languageEnglish
Article number1443
JournalPharmaceuticals
Volume17
Issue number11
Early online date28 Oct 2024
DOIs
Publication statusPublished - Nov 2024

Keywords

  • hypoxia
  • Siglec-7
  • Siglec-9
  • NK cell cytotoxicity

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