AI Article Synopsis

  • Transposons, which are genetic elements that can disrupt cellular functions, utilize the HMGXB4 protein to enhance their own activity and promote genetic changes in germinal stem cells.* -
  • HMGXB4 is primarily expressed from the mother and plays important roles in regulating Wnt signaling, pluripotency, and interactions with chromatin, influencing the behavior of transposons.* -
  • The study indicates that HMGXB4 is crucial for the integration and persistence of transposons in vertebrate genomes, revealing its dual role in transposon activity and cellular regulation.*

Article Abstract

Transposons are parasitic genetic elements that frequently hijack vital cellular processes of their host. HMGXB4 is a known Wnt signaling-regulating HMG-box protein, previously identified as a host-encoded factor of (SB) transposition. Here, we show that HMGXB4 is predominantly maternally expressed, and marks both germinal progenitor and somatic stem cells. SB piggybacks HMGXB4 to activate transposase expression and target transposition to germinal stem cells, thereby potentiating heritable transposon insertions. The promoter is located within an active chromatin domain, offering multiple looping possibilities with neighboring genomic regions. is activated by ERK2/MAPK1, ELK1 transcription factors, coordinating pluripotency and self-renewal pathways, but suppressed by the KRAB-ZNF/TRIM28 epigenetic repression machinery, also known to regulate transposable elements. At the post-translational level, SUMOylation regulates HMGXB4, which modulates binding affinity to its protein interaction partners and controls its transcriptional activator function via nucleolar compartmentalization. When expressed, HMGXB4 can participate in nuclear-remodeling protein complexes and transactivate target gene expression in vertebrates. Our study highlights HMGXB4 as an evolutionarily conserved host-encoded factor that assists transposons to target the germline, which was necessary for their fixation and may explain their abundance in vertebrate genomes.

Download full-text PDF

Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10138897PMC
http://dx.doi.org/10.3390/ijms24087283DOI Listing

Publication Analysis

Top Keywords

stem cells
12
transposition germinal
8
germinal stem
8
host-encoded factor
8
hmgxb4
7
hmgxb4 targets
4
targets transposition
4
cells transposons
4
transposons parasitic
4
parasitic genetic
4

Similar Publications

Want AI Summaries of new PubMed Abstracts delivered to your In-box?

Enter search terms and have AI summaries delivered each week - change queries or unsubscribe any time!