PloS one

A new tumor-suppressing role of glycine N-methyltransferase that works without its enzyme activity but needs to be inside the cell nucleus

Updated

Abstract

GNMT is strongly down regulated in human cancers and is undetectable in cancer cell lines.

  • Transient expression of GNMT in cancer cells induces and activates ERK1/2 as an early response.
  • The antiproliferative effect of GNMT can be partially reversed by the pan-caspase inhibitor zVAD-fmk.
  • GNMT primarily suppresses proliferation in cells from malignant tumors; non-cancerous HEK293 cells show insensitivity.
  • High levels of GNMT in regenerating liver and NIH3T3 mouse fibroblasts do not produce cytotoxic effects.
  • Nuclear localization of GNMT is associated with induction of apoptosis, independent of its or folate binding.

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What this is

  • Glycine N-methyltransferase (GNMT) is down-regulated in various human cancers and cancer cell lines.
  • This study shows that GNMT induces in cancer cells independent of its enzymatic activity.
  • Nuclear localization of GNMT is crucial for its tumor suppressor function, while its catalytic role is not necessary.

Essence

  • GNMT functions as a tumor suppressor in cancer cells, inducing through nuclear localization rather than its . Its expression is lost in many tumors, suggesting a protective role against cancer development.

Key takeaways

  • GNMT is strongly down-regulated in human tumors and absent in cancer cell lines. This loss suggests a potential role in tumor suppression.
  • GNMT induces in cancer cells without causing DNA damage, indicating a non-canonical pathway for cell death. This effect is enhanced in the presence of the pan-caspase inhibitor zVAD-fmk.
  • Catalytically inactive GNMT mutants retain the ability to inhibit cell proliferation, demonstrating that its tumor suppressor function does not rely on its enzymatic activity.

Caveats

  • The study primarily focuses on in vitro models, which may not fully represent the complexity of tumor biology in vivo.
  • The exact mechanisms by which nuclear-localized GNMT exerts its effects remain to be fully elucidated.

Definitions

  • apoptosis: A form of programmed cell death that occurs in multicellular organisms, characterized by specific cellular changes.
  • catalytic activity: The ability of an enzyme to facilitate a biochemical reaction, often involving the conversion of substrates into products.

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