Transposon DNA Sequences Facilitate the Tissue-specific Gene Transfer of Circulating Tumor DNA Between Human Cells

Overview

Journal Nucleic Acids Res

Publisher Oxford University Press

Specialty Biochemistry

Date 2024 May 23

PMID 38783375

Authors

Munevver Cinar

Lourdes Martinez-Medina

Pavan K Puvvula

Arsen Arakelyan

Badri N Vardarajan

Neil Anthony

Ganji P Nagaraju

Dongkyoo Park

Lei Feng

Faith Sheff

Marina Mosunjac

Debra Saxe

Steven Flygare

Olatunji B Alese

Jonathan L Kaufman

Sagar Lonial

Juan M Sarmiento

Izidore S Lossos

Paula M Vertino

Jose A Lopez

Bassel El-Rayes

Leon Bernal-Mizrachi

Affiliations

Soon will be listed here.

Abstract

The exchange of genes between cells is known to play an important physiological and pathological role in many organisms. We show that circulating tumor DNA (ctDNA) facilitates cell-specific gene transfer between human cancer cells and explain part of the mechanisms behind this phenomenon. As ctDNA migrates into the nucleus, genetic information is transferred. Cell targeting and ctDNA integration require ERVL, SINE or LINE DNA sequences. Chemically manufactured AluSp and MER11C sequences replicated multiple myeloma (MM) ctDNA cell targeting and integration. Additionally, we found that ctDNA may alter the treatment response of MM and pancreatic cancer models. This study shows that retrotransposon DNA sequences promote cancer gene transfer. However, because cell-free DNA has been detected in physiological and other pathological conditions, our findings have a broader impact than just cancer. Furthermore, the discovery that transposon DNA sequences mediate tissue-specific targeting will open up a new avenue for the delivery of genes and therapies.

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Unveiling retrotransposon-derived DNA zip code for myeloma cell internalization.

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A retrotransposon-derived DNA zip code internalizes myeloma cells through Clathrin-Rab5a-mediated endocytosis.

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