Abstract
Flexibility in the exchange of genetic material takes place between different organisms of the same or different species. This phenomenon is known to play a key role in the genetic, physiological, and ecological performance of the host. Exchange of genetic materials can cause both beneficial and/or adverse biological consequences. Horizontal gene transfer (HGT) or lateral gene transfer (LGT) as a general mechanism leads to biodiversity and biological innovations in nature. HGT mediators are one of the genetic engineering tools used for selective introduction of desired changes in the genome for gene/cell therapy purposes. HGT, however, is crucial in development, emergence, and recurrence of various human-related diseases, such as cancer, genetic-, metabolic-, and neurodegenerative disorders and can negatively affect the therapeutic outcome by promoting resistant forms or disrupting the performance of genome editing toolkits. Because of the importance of HGT and its vital physio- and pathological roles, here the variety of HGT mechanisms are reviewed, ranging from extracellular vesicles (EVs) and nanotubes in prokaryotes to cell-free DNA and apoptotic bodies in eukaryotes. Next, we argue that HGT plays a role both in the development of useful features and in pathological states associated with emerging and recurrent forms of the disease. A better understanding of the different HGT mediators and their genome-altering effects/potentials may pave the way for the development of more effective therapeutic and diagnostic regimes.
Highlights
The mobility of genetic information between different organisms, known as horizontal gene transfer (HGT), is a dynamic and persistent phenomenon that can have immediate or delayed effects in the recipient host (Husnik and McCutcheon, 2018)
Discovering the tumor-derived exosomes in cancerous mice revealed the releasing of epidermal growth factor receptor (EGFR) in host macrophages which cause a decrease in interferon-1 gene expression, and thereby the immune response is reduced against viral infection (Gao et al, 2018)
Since the genetic remodeling of a single organism is not enough to meet this requirement, Horizontal gene transfer (HGT) has emerged as an effective approach to provide such a survival advantage
Summary
The mobility of genetic information between different organisms, known as horizontal gene transfer (HGT), is a dynamic and persistent phenomenon that can have immediate or delayed effects in the recipient host (Husnik and McCutcheon, 2018). Transposable elements (TEs), as a typical example of HGT mediators from viruses to eukaryotes, have enormous implications in the evolution of the human genome (Deniz et al, 2019). Newly discovered HGT mediators in mammalian cells including vesicular particles (EVs) (Willms et al, 2018; Zhang et al, 2019), apoptotic bodies (Caruso and Poon, 2018; Xu et al, 2019; Battistelli and Falcieri, 2020), and cell-free DNA (cfDNA) are involved in different stages of cancer development and progression, as well as anti-cancer drug resistance and therapy failure. We explained the effects of HGT mediators, ranging from genome flexibility and the emergence of useful traits to the development of various healthrelated diseases, antibiotic/cancer drug resistance, and metastasis
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