Abstract
In addition to evolutionarily-accrued sequence mutation or deletion, endogenous retroelements (EREs) in eukaryotic genomes are subject to epigenetic silencing, preventing or reducing their transcription, particularly in the germplasm. Nevertheless, transcriptional activation of EREs, including endogenous retroviruses (ERVs) and long interspersed nuclear elements (LINEs), is observed in somatic cells, variably upon cellular differentiation and frequently upon cellular transformation. ERE transcription is modulated during physiological and pathological immune cell activation, as well as in immune cell cancers. However, our understanding of the potential consequences of such modulation remains incomplete, partly due to the relative scarcity of information regarding genome-wide ERE transcriptional patterns in immune cells. Here, we describe a methodology that allows probing RNA-sequencing (RNA-seq) data for genome-wide expression of EREs in murine and human cells. Our analysis of B cells reveals that their transcriptional response during immune activation is dominated by induction of gene transcription, and that EREs respond to a much lesser extent. The transcriptional activity of the majority of EREs is either unaffected or reduced by B cell activation both in mice and humans, albeit LINEs appear considerably more responsive in the latter host. Nevertheless, a small number of highly distinct ERVs are strongly and consistently induced during B cell activation. Importantly, this pattern contrasts starkly with B cell transformation, which exhibits widespread induction of EREs, including ERVs that minimally overlap with those responsive to immune stimulation. The distinctive patterns of ERE induction suggest different underlying mechanisms and will help separate physiological from pathological expression.
Highlights
Vertebrate genomes contain a considerable number of endogenous retroelements (EREs) with various degrees of open reading frame (ORF) integrity and replication autonomy
We focused on murine B cells to examine the transcriptional response of long terminal repeats (LTRs) and non-LTR elements to B cell stimulation
Previously uncharacterized due to their location of the Y chromosome (Frankel et al, 1989), were significantly upregulated (Figure 1B and Supplementary Table 1). These were highly homologous with Xmv41, Xmv43 and Xmv45 (Supplementary Figure 1), making it difficult to discern whether the Y-linked proviruses are genuinely expressed or whether they report expression of Xmv41, Xmv43 or Xmv45
Summary
Vertebrate genomes contain a considerable number of endogenous retroelements (EREs) with various degrees of open reading frame (ORF) integrity and replication autonomy. LINEs are still capable of autonomous retrotransposition in both host species They provide the reverse-transcriptase (RT) activity and retrotransposition machinery for mobilization of other EREs that lack long terminal repeats (LTRs), collectively known as non-LTR elements, and occasionally of processed RNAs from cellular genes (Burns and Boeke, 2012). Transcriptional induction of EREs was described in B cells from Multiple Sclerosis (MS) patients, which were found to express elevated surface levels of ERV envelope glycoproteins (Brudek et al, 2009) This transcriptional regulation of EREs in B cells or other hematopoietic cells may influence immune function, and both beneficial and detrimental effects have been proposed (Kassiotis and Stoye, 2016). Our results reveal distinct patterns of limited ERE induction during B cell cellular activation, contrasting with wide-spread ERE upregulation during B cell transformation, which indicates different underlying mechanisms
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