Abstract
Hepatocellular carcinoma (HCC) still presents poor prognosis with high mortality rate, despite of the improvement in the management. The challenge for precision treatment was due to the fact that little targeted therapeutics are available for HCC. Recent studies show that metabolic and circulating peptides serve as endogenous switches for correcting aberrant cellular plasticity. Here we explored the antitumor activity of low molecular components in human umbilical serum and identified a high abundance peptide VI-13 by peptidome analysis, which was recognized as the part of glutamyltransferase signal peptide. We modified VI-13 by inserting four arginines and obtained an analog peptide VI-17 to improve its solubility. Our analyses showed that the peptide VI-17 induced rapid context-dependent cell death, and exhibited a higher sensitivity on hepatoma cells, which is attenuated by polyethylene glycol but not necrotic inhibitors such as z-VAD-fmk or necrostatin-1. Morphologically, VI-17 induced cell swelling, blebbing and membrane rupture with release of cellular ATP and LDH into extracellular media, which is hallmark of oncotic process. Mechanistically, VI-17 induced cell membrane pore formation, degradation of α-tubulin via influx of calcium ion. These results indicated that the novel peptide VI-17 induced oncosis in HCC cells, which could serve as a promising lead for development of therapeutic intervention of HCC.
Highlights
Hepatocellular carcinoma (HCC) still presents poor prognosis with high mortality rate, despite of the improvement in the management
VI-17 induced cell membrane pore formation, degradation of α-tubulin via influx of calcium ion. These results indicated that the novel peptide VI-17 induced oncosis in HCC cells, which could serve as a promising lead for development of therapeutic intervention of HCC
Oncosis was a form of accidental cell death hallmarked by cellular swelling, blebbing and increased membrane permeability caused by an activation of calpain I and related cytoskeletal r earrangement[7,11,12], while necrosis is initiated by inflammation signaling and RIPK activation
Summary
Hepatocellular carcinoma (HCC) still presents poor prognosis with high mortality rate, despite of the improvement in the management. VI-17 induced cell membrane pore formation, degradation of α-tubulin via influx of calcium ion These results indicated that the novel peptide VI-17 induced oncosis in HCC cells, which could serve as a promising lead for development of therapeutic intervention of HCC. Oncotic cell death involves progressive plasma membrane injury involving 3 distinct s tages[8,9], which was initiated by plasma membrane permeability alteration due to injury in stage 1 This results in uncontrolled exchange of intracellular and extracellular ions and water which lead to cell swelling without gross alteration of permeability. Oncosis was a form of accidental cell death hallmarked by cellular swelling, blebbing and increased membrane permeability caused by an activation of calpain I and related cytoskeletal r earrangement[7,11,12], while necrosis is initiated by inflammation signaling and RIPK activation. Hepatoma cells cultured in 2% human serum sustained growth arrest and presented a hepatocyte-like morphology[17], suggesting that circulating peptides in human serum may rewire cancer cell plasticity
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