Repression of phagocytosis by human CD33 is not conserved with mouse CD33

Author:

Bhattacherjee Abhishek,Rodrigues EmilyORCID,Jung Jaesoo,Luzentales-Simpson Matthew,Enterina Jhon R.ORCID,Galleguillos DannyORCID,St. Laurent Chris D.,Nakhaei-Nejad Maryam,Fuchsberger Felix F.,Streith Laura,Wang Qian,Kawasaki Norihito,Duan Shiteng,Bains Arjun,Paulson James C.ORCID,Rademacher ChristophORCID,Giuliani Fabrizio,Sipione Simonetta,Macauley Matthew S.ORCID

Abstract

AbstractCD33 is an immunomodulatory receptor linked to Alzheimer’s disease (AD) susceptibility via regulation of phagocytosis in microglia. Divergent features between human CD33 (hCD33) and murine CD33 (mCD33) include a unique transmembrane lysine in mCD33 and cytoplasmic tyrosine in hCD33. The functional consequences of these differences in restraining phagocytosis remains poorly understood. Using a new αmCD33 monoclonal antibody, we show that mCD33 is expressed at high levels on neutrophils and low levels on microglia. Notably, cell surface expression of mCD33 is entirely dependent on Dap12 due to an interaction with the transmembrane lysine in mCD33. In RAW264.7 cultured macrophages, BV-2 cultured microglia, primary neonatal and adult microglia, uptake of cargo — including aggregated Aβ1–42 — is not altered upon genetic ablation of mCD33. Alternatively, deletion of hCD33 in monocytic cell lines increased cargo uptake. Moreover, transgenic mice expressing hCD33 in the microglial cell lineage showed repressed cargo uptake in primary microglia. Therefore, mCD33 and hCD33 have divergent roles in regulating phagocytosis, highlighting the importance of studying hCD33 in AD susceptibility.

Funder

Gouvernement du Canada | Canadian Institutes of Health Research

UAlberta | Canadian Glycomics Network

Eisai

Canada Research Chairs

Canada Foundation for Innovation

Publisher

Springer Science and Business Media LLC

Subject

General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology,Medicine (miscellaneous)

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