Towards Aptamer-Targeted Drug Delivery to Brain Tumors: The Synthesis of Ramified Conjugates of an EGFR-Specific Aptamer with MMAE on a Cathepsin B-Cleavable Linker.

Targeted delivery of chemotherapeutic agents is a well-established approach to cancer therapy. Antibody-drug conjugates (ADCs) typically carry toxic payloads attached to a tumor-associated antigen-targeting IgG antibody via an enzyme-cleavable linker that releases the drug inside the cell. Aptamers are a promising alternative to antibodies in terms of antigen targeting; however, their polynucleotide nature and smaller size result in a completely different PK/PD profile compared to an IgG.

Unite and Conquer: Association of Two G-Quadruplex Aptamers Provides Antiproliferative and Antimigration Activity for Cells from High-Grade Glioma Patients.

: High-grade gliomas remain a virtually incurable form of brain cancer. Current therapies are unable to completely eradicate the tumor, and the tumor cells that survive chemotherapy or radiation therapy often become more aggressive and resistant to further treatment, leading to inevitable relapses. While the antiproliferative effects of new therapeutic molecules are typically the primary focus of research, less attention is given to their influence on tumor cell migratory activity, which can play a significant role in recurrence.

Varieties of interactions of anti-CD133 aptamers with cell cultures from patient glioblastoma.

Development of aptatheranostics for glioblastoma (GB) requires investigating aptamer interactions with cells. The paper has described flow cytometry (FC) assessment of direct interactions of fluorescent anti-CD133 aptamers with cells, focusing on cell cultures derived from patient GB (CCPGB). Conventional cell lines with different levels of CD133 mRNA, Caco-2 and HCT116, were used to compare interactions with known 2'FY-RNA aptamer A15 and DNA aptamers of Ap and Cs series, labeled with FAM and Cy5.