Retroviruses
retroviruses
Retroviruses and retrotransposons interacting with the 3D genome in mouse and human brain
Repeat-rich sequence blocks are considered major determinants for 3D folding and structural genome organization in the cell nucleus in all higher eukaryotes. Here, we discuss how megabase-scale chromatin domain and chromosomal compartment organization in adult mouse cerebral cortex is linked, in highly cell type-specific fashion, to multiple retrotransposon superfamilies which comprise the vast majority of mobile DNA elements in the murine genome. We show that neuronal megadomain architectures include an evolutionarily adaptive heterochromatic organization which, upon perturbation, unleashes proviruses from the Long Terminal Repeat (LTR) Endogenous Retrovirus family that exhibit strong tropism in mature neurons. Furthermore, we mapped, in the human brain, cell type-specific genomic integration patterns of the human pathogen and exogenous retrovirus, HIV, together with changes in genome organization and function of the HIV infected brain. Our work highlights the critical importance of chromosomal conformations and the ‘spatial genome’ for neuron- and glia-specific regulatory mechanisms and defenses aimed at exogenous and endogenous retrotransposons in the brain
Virus-like intercellular communication in the nervous system
The neuronal gene Arc is essential for long-lasting information storage in the mammalian brain and mediates various forms of synaptic plasticity. We recently discovered that Arc self-assembles into virus-like capsids that encapsulate RNA. Endogenous Arc protein is released from neurons in extracellular vesicles that mediate the transfer of Arc mRNA into new target cells. Evolutionary analysis indicates that Arc is derived from a vertebrate lineage of Ty3/gypsy retrotransposons, which are also ancestral to retroviruses such as HIV. These findings suggest that Gag retroelements have been repurposed during evolution to mediate intercellular communication in the nervous system that may underlie cognition and memory.
Characterization of the transcriptional landscape of endogenous retroviruses at the fetal-maternal interface in a mouse model of autism spectrum disorder
FENS Forum 2024
The role of endogenous retroviruses in brain aging and neuroinflammation
FENS Forum 2024