Background
FUN14 domain-containing 1 (FUNDC1), as a novel member of mitochondria-associated endoplasmic reticulum (ER) membranes associates with
mitochondrial division and mitophagy.
However, the expression profile and functional roles of FUNDC1 remain largely unclear in human cancer biology, including breast cancer (BC).
Methods
Immunohistochemistry and western blot analysis were used to determine the expression of FUNDC1 and BMI1 polycomb ring finger oncogene (BMI1). CCK8, cell counting and transwell assays were used to analyze cell proliferation, migration and invasion, respectively. Luciferase reporter and chromatin immunoprecipitation (ChIP) assays were used to detect the transcriptional regulation of Nuclear factor of activated T-cells, cytoplasmic 1 (NFATC1). The prognostic merit of NFATC1 expression was assessed by Kaplan-Meier assay.
Findings
Immunohistochemistry revealed strong immunostaining for FUNDC1 in cytoplasmic and nuclear membrane distribution in BC tissues as compared with normal breast epithelium. Kaplan–Meier survival analysis showed worse outcome for BC patients with high FUNDC1 expression. In vitro assay of gain- and loss-of-function of FUNDC1 suggested that FUNDC1 could stimulate BC cell proliferation, migration and invasion. Furthermore, elevated FUNDC1 level promoted Ca
2+
cytosol influx from ER and extracellular, as well as NFATC1 nuclear translocation and activity. Nuclear NFATC1 bound to the BMI1 gene promoter and transcriptionally upregulated its expression. Notably, BMI1 overexpression could rescue the loss of function of FUNDC1. Co-expression of FUNDC1 and BMI1 in BC patients predicted worse prognosis than without either expression.
Interpretation
FUNDC1 might promote BC progression by activating the Ca
2+
–NFATC1–BMI1 axis. This pathway may be promising for developing multiple targets for BC therapy.
Observational studies of thyroid function and dementia have reported conflicting results. We reviewed cohort and case-control studies from MEDLINE, EMBASE, Web of Science and the Cochrane Library that focused on the association between serum thyroxine, thyrotropin and dementia. A total of 24,952 participants from three case-control and eight cohort studies were included. The relationships between dementia and the per standard deviation (SD) increment of free thyroxine (FT4) (random relative ratio (RR) = 1.08, 95% confidence interval (CI) 1.00–1.17) and thyroid-stimulating hormone (TSH) (fixed RR = 0.91, 95% CI 0.84–0.99) were well established. TSH levels in the low category were associated with an increased risk of dementia (fixed RR = 1.60, 95% CI 1.27–2.00). However, the positive association was confined to TSH levels below the normal range (fixed RR = 1.77, 95% CI 1.31–2.39), not those in the lower tertile of the normal range (fixed RR = 1.39, 95% CI 0.98–1.97). Additionally, dementia was not significantly associated with high TSH levels (fixed RR = 0.99, 95% CI 0.76–1.29). Furthermore, there was no positive association between dementia and the low or high categories of TSH in men. Thus, individuals with higher FT4 levels or those with TSH levels below the normal range have an increased risk of dementia.
Modification of the novel N6-methyladenine (m6A) DNA implicates this epigenetic mark in human malignant disease, but its role in atherosclerosis (AS) is largely unknown. Here, we found that the leukocyte level of m6A but not 5mC DNA modification was decreased with increasing of carotid plaque size and thickness in 207 AS patients as compared with 142 sex- and age-matched controls. Serum low-density lipoprotein (LDL) and leukocyte m6A levels were associated with the progression of carotid plaque size and thickness. Both LDL level and plaque thickness were also independently and negatively related to m6A level. Reduced m6A level was further confirmed in leukocytes and endothelium in western diet-induced AS mice and in oxidized-LDL (ox-LDL)-treated human endothelium and monocyte cells. Decreased m6A level was closely related to the upregulation of AlkB homolog 1 (ALKBH1), the demethylase of m6A. Silencing of ALKBH1 or hypoxia-inducible factor 1α (HIF1α) could rescue the ox-LDL–increased level of MIAT, a hypoxia-response gene. Mechanically, ox-LDL induced HIF1α for transfer into the nucleus. Nuclear HIF1α bound to the ALKBH1-demethylated MIAT promoter and transcriptionally upregulated its expression. Therefore, elevated ALKBH1 level in endothelium and leukocytes reduced m6A level, which is a novel and sensitive biomarker for AS progression.
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