Hoi Hei Ng scite author profile

Hoi Hei Ng

3Publications

27Citation Statements Received

248Citation Statements Given

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129

226

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University of Alberta

Publications

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High-Throughput Analysis Reveals miRNA Upregulating α-2,6-Sialic Acid through Direct miRNA–mRNA Interactions

Jame-Chenarboo

Macdonald

et al. 2022

ACS Cent. Sci.

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Chemical biology has revealed the importance of sialic acids as a major signal in physiology and disease. The terminal modification α-2,6-sialic acid is controlled by the enzymes ST6GAL1 and ST6GAL2. Dysregulation of this glycan impacts immunological recognition and cancer development. microRNAs (miRNA, miR), noncoding RNAs that downregulate protein expression, are important regulators of glycosylation. Using our recently developed high-throughput fluorescence assay (miRFluR), we comprehensively mapped the miRNA regulatory landscape of α-2,6-sialyltransferases ST6GAL1 and ST6GAL2. We found, contrary to expectations, the majority of miRNAs upregulate ST6GAL1 and α-2,6-sialylation in a variety of cancer cells. In contrast, miRNAs that regulate ST6GAL2 were predominantly downregulatory. Mutational analysis identified direct binding sites in the 3′-untranslated region (UTR) responsible for upregulation, confirming it is a direct effect. The miRNA binding proteins AGO2 and FXR1 were required for upregulation. Our results upend common assumptions surrounding miRNA, arguing that upregulation by these noncoding RNA is common. Indeed, for some proteins, upregulation may be the dominant function of miRNA. Our work also suggests that upregulatory miRNAs enhance overexpression of ST6GAL1 and α-2,6-sialylation, providing another potential pathway to explain the dysregulation observed in cancer and other disease states.

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Loss of the fructose transporter SLC2A5 inhibits cancer cell migration

Groenendyk

Stoletov

Paškevičius

et al. 2022

Front. Cell Dev. Biol.

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Metastasis is the primary cause of cancer patient death and the elevation of SLC2A5 gene expression is often observed in metastatic cancer cells. Here we evaluated the importance of SLC2A5 in cancer cell motility by silencing its gene. We discovered that CRISPR/Cas9-mediated inactivation of the SLC2A5 gene inhibited cancer cell proliferation and migration in vitro as well as metastases in vivo in several animal models. Moreover, SLC2A5-attenuated cancer cells exhibited dramatic alterations in mitochondrial architecture and localization, uncovering the importance of SLC2A5 in directing mitochondrial function for cancer cell motility and migration. The direct association of increased abundance of SLC2A5 in cancer cells with metastatic risk in several types of cancers identifies SLC2A5 as an important therapeutic target to reduce or prevent cancer metastasis.

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miRNA upregulate protein and glycan expression via direct activation in proliferating cells

Jame-Chenarboo

Macdonald

et al. 2022

Preprint

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The dominant paradigm is that miRNA binding to mRNA represses protein expression. Activation by miRNA has been observed in select circumstances (quiescent cells, mitochondria), but is not thought a feature of miRNA action in actively dividing cells. Herein, we comprehensively map the miRNA regulation of α-2,6-sialyltransferases ST6GAL1 and ST6GAL2 using a high-throughput assay (miRFluR). We find the majority of miRNA targeting ST6GAL1, the main enzyme controlling α-2,6-sialylation, upregulate protein expression. In contrast, those that regulate ST6GAL2 are predominantly downregulatory. We provide evidence that miRNA-mediated upregulation occurs in proliferating cells and is a direct effect. Further, we show that AGO2 and FXR1 are required. Our data expands current understanding of miRNA, providing strong evidence of both upregulatory and downregulatory roles for these non-coding RNA.

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Hoi Hei Ng

High-Throughput Analysis Reveals miRNA Upregulating α-2,6-Sialic Acid through Direct miRNA–mRNA Interactions

Loss of the fructose transporter SLC2A5 inhibits cancer cell migration

miRNA upregulate protein and glycan expression via direct activation in proliferating cells

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