Identification of two novel Chlorotoxin derivatives CA4 and CTX-23 with chemotherapeutic and anti-angiogenic potential.

Tengfei Xu,Michael Buchfelder,Yingliang Wu,Jana K Wrosch,Zheng Fan,Nicolai E Savaskan,Ilker Y Eyupoglu,Wenxin Li,Matthias W Beckmann,Matthias W Beckmann,Barbara Dietel,Zhijian Cao

doi:10.1038/srep19799

Tengfei Xu, Michael Buchfelder + Show 10 more

Open Access

https://doi.org/10.1038/srep19799

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Abstract

Brain tumors are fast proliferating and destructive within the brain microenvironment. Effective chemotherapeutic strategies are currently lacking which combat this deadly disease curatively. The glioma-specific chloride ion channel represents a specific target for therapy. Chlorotoxin (CTX), a peptide derived from scorpion venom, has been shown to be specific and efficacious in blocking glioma Cl− channel activity. Here, we report on two new derivatives (termed CA4 and CTX-23) designed and generated on the basis of the peptide sequence alignments of CTX and BmKCT. The novel peptides CA4 and CTX-23 are both effective in reducing glioma cell proliferation. In addition, CTX, CA4 and CTX-23 impact on cell migration and spheroid migration. These effects are accompanied by diminished cell extensions and increased nuclear sizes. Furthermore, we found that CA4 and CTX-23 are selective with low toxicity against primary neurons and astrocytes. In the ex vivo VOGiM, which maintain the entire brain tumor microenvironment, both CTX and CA4 display anti-tumor activity and reduce tumor volume. Hence, CTX and CA4 reveal anti-angiogenic properties with endothelial and angiogenic hotspots disrupting activities. These data report on the identification of two novel CTX derivatives with multiple anti-glioma properties including anti-angiogenesis.

Highlights

Primary brain tumors derived from glial cells belong to the deadliest forms of cancer in humans
The nucleotide sequence encoding CA4 or CTX-23 was generated by overlapping PCR method
Since angiogenesis is one major hallmark of gliomas, we examined whether the prototypic glioma-specific Cl− channel blocker CTX and its potent derivatives CA4 and CTX-23 have any effects on endothelial cells

Summary

Introduction

Primary brain tumors derived from glial cells belong to the deadliest forms of cancer in humans. Scorpion venom includes bio-polysaccharides, hyaluronic acid derivates, serotonin, histamine, histamine-releasing factors and protease inhibitors[4,5] These bioactive polypeptides selectively bind to and modulate specific ion channels of excitable cell membranes. In a remarkable effort to identify reliable properties selective for gliomas, the Sontheimer group reported on a chloride ion channel activity abundant in malignant gliomas and absent in normal brain tissue[11,12]. This glioma-specific chloride channel (GCC) can shape glioma cell morphology, foster proliferation and migration, and regulates apoptosis[13,14,15,16]. With CTX in hand GCC has first been identified in tumor tissue specimens from patients and has been detected in glioma cell lines such as U251MG, CH235MG, U373MG, U105MG, D54MG, SK-MG-l and STTGl13

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