Cong Peng et al., at Department of Dermatology, Xiangya Hospital, Central South University, China, conducted a study titled "NETO2 promotes melanoma progression via activation of the Ca²⁺/CaMKII signalling pathway" that investigates the role of Neuropilin and tolloid-like 2 (NETO2) in melanoma, a deadly form of skin cancer.
The research explores how NETO2, a membrane protein, influences the progression of melanoma through the Ca²⁺/CaMKII signalling pathway.
Found in the Frontiers of Medicine.
The study begins by highlighting the importance of Ca²⁺ as a signalling ion in cellular functions such as proliferation, migration, and transcription factor activation. It notes that Ca²⁺ signalling is highly activated in melanoma, contributing to its growth and invasiveness.
NETO2, identified as an interaction partner of neuronal kainate receptors, is shown to be associated with neuropsychiatric disorders and emotional behaviour regulation.
Recent studies suggest that NETO2 also plays a key role in human malignant tumours, including osteosarcoma, oesophageal and gastric cancer, and pancreatic cancer.
The researchers hypothesise that NETO2 is involved in melanoma progression by activating the Ca²⁺-dependent CaMKII/CREB pathway.
To test this, they demonstrate that NETO2 is overexpressed in melanoma and associated with the survival rate of melanoma patients.
They show that NETO2 promotes melanoma cell proliferation and migration, and increases intracellular calcium concentration, leading to increased phosphorylation of CaMKII and CREB.
The study employs various methods including cell culture, DNA plasmids, lentiviral infection, bioinformatics analysis, Western blot, proliferation and colony formation assays, migration and invasion assays, intracellular Ca²⁺ measurement, xenograft tumour model, immunohistochemistry, and statistical analyses. The results indicate that NETO2 overexpression in melanoma tissues is correlated with poor prognosis.
In vitro, NETO2 promotes melanoma cell proliferation, and in vivo, silencing NETO2 suppresses melanoma growth.
NETO2 also promotes the migration and invasion of melanoma cells, potentially through the regulation of matrix metalloproteinases (MMPs).
The study concludes that NETO2 activates the calcium signalling pathway in melanoma, and its inhibition by the CaMKII inhibitor KN93 suppresses the NETO2-driven melanoma phenotype.
NETO2 is suggested as a potential therapeutic target for melanoma, highlighting its role in facilitating melanoma progression through the CaMKII/CREB signalling pathway.
In summary, the study provides novel insights into the molecular mechanisms of melanoma progression and offers a feasible therapeutic target for this malignancy.
Source: Higher Education Press
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