RRC ID 75951
Author Earley BJ, Cubillas C, Warnhoff K, Ahmad R, Alcantar A, Lyon MD, Schneider DL, Kornfeld K.
Title Cadmium hijacks the high zinc response by binding and activating the HIZR-1 nuclear receptor.
Journal Proc Natl Acad Sci U S A
Abstract Cadmium is an environmental pollutant and significant health hazard that is similar to the physiological metal zinc. In Caenorhabditis elegans, high zinc homeostasis is regulated by the high zinc activated nuclear receptor (HIZR-1) transcription factor. To define relationships between the responses to high zinc and cadmium, we analyzed transcription. Many genes were activated by both high zinc and cadmium, and hizr-1 was necessary for activation of a subset of these genes; in addition, many genes activated by cadmium did not require hizr-1, indicating there are at least two mechanisms of cadmium-regulated transcription. Cadmium directly bound HIZR-1, promoted nuclear accumulation of HIZR-1 in intestinal cells, and activated HIZR-1-mediated transcription via the high zinc activation (HZA) enhancer. Thus, cadmium binding promotes HIZR-1 activity, indicating that cadmium acts as a zinc mimetic to hijack the high zinc response. To elucidate the relationships between high zinc and cadmium detoxification, we analyzed genes that function in three pathways: the pcs-1/phytochelatin pathway strongly promoted cadmium resistance but not high zinc resistance, the hizr-1/HZA pathway strongly promoted high zinc resistance but not cadmium resistance, and the mek-1/sek-1/kinase signaling pathway promoted resistance to high zinc and cadmium. These studies identify resistance pathways that are specific for high zinc and cadmium, as well as a shared pathway.
Volume 118(42)
Published 2021-10-19
DOI 10.1073/pnas.2022649118
PII 2022649118
PMID 34649987
PMC PMC8594570
MeSH Animals Cadmium / pharmacology* Caenorhabditis elegans / drug effects* Caenorhabditis elegans / metabolism Caenorhabditis elegans Proteins / metabolism* Homeostasis Ligands Metallothionein / metabolism Protein Binding Receptors, Cytoplasmic and Nuclear / metabolism* Zinc / metabolism*
Resource
C.elegans tm1770 tm1748 tm1907 tm2708 tm2856 tm5013 tm5370 tm5930 tm6882 tm6974 tm788 tm830