Haeng-Jun Kim scite author profile

Recent research on non-thermal plasma (NTP, an ionized gas) has identified it as a novel cancer therapeutic tool. However, the molecular mechanism remains unclear. In this study, we demonstrated NTP induced cell death of head and neck cancer (HNC) through the AKT ubiquitin–proteasome system. NTP increased the gene expression of mitochondrial E3 ubiquitin protein ligase 1 (MUL1), an E3 ligase for AKT, and NTP-induced HNC cell death was prevented by MUL1 siRNA. We also showed that MUL1 inhibited the level of AKT and p-AKT and MUL1 expression was increased by NTP-induced ROS. Furthermore, we optimized and manufactured a new type of NTP, a liquid type of NTP (LTP). In syngeneic and xenograft in vivo tumor models, LTP inhibited tumor progression by increasing the MUL1 level and reducing p-AKT levels, indicating that LTP also has an anti-cancer effect through the same mechanism as that of NTP. Taken together, our results suggest that NTP and LTP have great potential for HNC therapy.

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HSPA5 negatively regulates lysosomal activity through ubiquitination of MUL1 in head and neck cancer

Kim

et al. 2018

Autophagy

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HSPA5/GRP78/BiP plays an important role in cell survival or tumor progression. For these reasons, HSPA5 is an emerging therapeutic target in cancer development. Here we report that HSPA5 contributes to head and neck cancer (HNC) survival via maintenance of lysosomal activity; however, a nonthermal plasma (NTP, considered as a next-generation cancer therapy)-treated solution (NTS) inhibits HNC progression through HSPA5-dependent alteration of lysosomal activity. HSPA5 prevents NTS-induced lysosome inhibition through lysosomal-related proteins or regulation of gene expression. However, NTS-induced MUL1/MULAN/GIDE/MAPL (mitochondrial ubiquitin ligase activator of NFKB 1) leads to downregulation of HSPA5 via K48-linked ubiquitination at the lysine 446 (K446) residue. MUL1 knockdown hinders NTS-induced lysosome inhibition or cytotoxicity through the reduction of HSPA5 ubiquitination in HNC cells. While MUL1 was suppressed, HSPA5 was overexpressed in tissues of HNC patients. NTS strongly inhibited HNC progression via alterations of expression of MUL1 and HSPA5, in vivo in a xenograft model. However, NTS did not induce inhibition of tumor progression or HSPA5 reduction in MUL1 knockout (KO) HNC cells which were generated by CRISPR/Cas9 system. The data provide compelling evidence to support the idea that the regulation of the MUL1-HSPA5 axis can be a novel strategy for the treatment of HNC.

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GnRH impairs diabetic wound healing through enhanced NETosis

et al. 2019

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It has been reported that neutrophil extracellular traps (NETs) impair wound healing in diabetes and that inhibiting NET generation (NETosis) improves wound healing in diabetic mice. Gonadotropin-releasing hormone (GnRH) agonists are associated with a greater risk of diabetes. However, the role of GnRH in diabetic wound healing is unclear. We determined whether GnRH-promoted NETosis and induced more severe and delayed diabetic wound healing. A mouse model of diabetes was established using five injections with streptozotocin. Mice with blood glucose levels >250 mg/dL were then used in the experiments. GnRH agonist treatment induced delayed wound healing and increased NETosis at the skin wounds of diabetic mice. In contrast, GnRH antagonist treatment inhibited GnRH agonist-induced delayed wound healing. The expression of NETosis markers PAD4 and citrullinated histone H3 were increased in the GnRH-treated diabetic skin wounds in diabetic mice and patients. In vitro experiments also showed that neutrophils expressed a GnRH receptor and that GnRH agonist treatment increased NETosis markers and promoted phorbol myristate acetate (PMA)-induced NETosis in mouse and human neutrophils. Furthermore, GnRH antagonist treatment suppressed the expression of NETosis markers and PMA-induced NETosis, which were increased by GnRH treatment. These results indicated that GnRH-promoted NETosis and that increased NETosis induced delayed wound healing in diabetic skin wounds. Thus, inhibition of GnRH might be a novel treatment of diabetic foot ulcers.

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ESE‑1 suppresses the growth, invasion and migration of human NSCLC cells and tumor formation in�vivo

Lou

Lee

et al. 2018

Oncol Rep

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Lung cancer is the first leading cause of cancer‑related death in the United States. Non‑small cell lung cancer (NSCLC) is the most common type of lung cancer and is associated with a poor patient prognosis. Identification of promising molecular targets is required for the effective prevention and therapy of NSCLC. Epithelial‑specific ETS‑1 (ESE‑1) belongs to the superfamily of ETS transcription factors. The effect of ESE‑1 on tumorigenesis is controversial in several types of cancer while its role in lung cancer remains unknown. The present study was designed to investigate whether ESE‑1 expression affects tumorigenic activity using human NSCLC cells and a mouse xenograft model. ESE‑1 expression suppressed anchorage‑independent growth in soft agar assay and led to an increase in G1 arrest and apoptosis in human NSCLC cells. ESE‑1 expression suppressed the invasion and migration of human NSCLC cells. Western blot analysis, RT‑PCR and promoter assay indicated that ESE‑1 expression was transcriptionally downregulated by treatment of transforming growth factor (TGF)‑β, an EMT (epithelial‑mesenchymal transition) stimulator. The xenograft study indicated that ESE‑1 expression inhibited tumor formation and development. Our data demonstrated that ESE‑1 plays a key role as a tumor suppressor in human NSCLC.

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The Dual Inhibition of Met and EGFR by ME22S, a Novel Met/EGFR Bispecific Monoclonal Antibody, Suppresses the Proliferation and Invasion of Laryngeal Cancer

et al. 2016

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Haeng-Jun Kim

Non-thermal plasma induces AKT degradation through turn-on the MUL1 E3 ligase in head and neck cancer

HSPA5 negatively regulates lysosomal activity through ubiquitination of MUL1 in head and neck cancer

GnRH impairs diabetic wound healing through enhanced NETosis

ESE‑1 suppresses the growth, invasion and migration of human NSCLC cells and tumor formation in�vivo

The Dual Inhibition of Met and EGFR by ME22S, a Novel Met/EGFR Bispecific Monoclonal Antibody, Suppresses the Proliferation and Invasion of Laryngeal Cancer

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