Aggressive tissue biopsy is commonly unavoidable in the management of most suspected tumor cases to conclusively verify the presence of cancerous cells through histological assessment. The extracted tissue is also immunostained for detection of antigens (tissue tumor markers) of potential prognostic or therapeutic importance to assist in treatment decision. Although liquid biopsies can be a powerful tool for monitoring treatment response, they are still excluded from standard cancer diagnostics, and their utility is still being debated in the scientific community. With a myriad of soluble tissue tumor markers now being discovered, liquid biopsies could completely change the current paradigms of cancer management. Recently, soluble form of PD-L1 (sPD-L1), which is found in the peripheral blood, i.e. serum and plasma, has shown potential as a pre-therapeutic predictive marker as well as a prognostic biomarker to monitor treatment efficacy. Thus, this review focuses on the emergence of sPD-L1 and promising technologies for its detection in order to support liquid biopsies for future cancer management.
‘Neonatal’ Nav1.5 (nNav1.5) is a potent tumour metastasis marker found especially in aggressive human breast cancer cells in vitro, in tumour tissues of in vivo metastatic animal models and in patients positive for lymph-node metastasis. Its expression has been recently described in human brain neuroblastoma and astrocytoma. However, a thorough understanding of nNav1.5’s role in cancers has been limited by the lack of specific antibodies against it. Here, a mouse monoclonal antibody, 4H8 mAb-nNav1.5, was obtained and characterised concerning its efficacy in detecting nNav1.5 using indirect ELISA, surface plasmon resonance (SPR), Western blotting and immunofluorescence microscopy. 4H8 mAb-nNav1.5 was selected from a panel of hybridoma clones raised against nNav1.5 specific peptide (15 mers). The antibody exhibited linear association against nNav1.5 specific-linear peptide in indirect ELISA and was supported by SPR. The antibody also demonstrated strong immunoreactivity in immunofluorescence imaging of nNav1.5-abundant cells, human and mouse aggressive breast cancer cells, MDA-MB-231 and 4T1, respectively, which was not observed in nNav1.5-deficient cells, human less aggressive breast cancer cells, MCF-7 and non-cancerous breast epithelial cells, MCF-10A. This study demonstrates the initial description of 4H8 mAb-nNav1.5, which could serve as a beneficial tool to enhance future studies on nNav1.5 expression and function in cancers.
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