SMCHD1 variants may induce variegated expression in Facio Scapulo Humeral Dystophy and Bosma Arhinia and microphtalmia syndrome

Laberthonnière, Camille; Chevalier, Raphaël; Dion, Camille; Delourme, Mégane; Hirst, Daniel; Adélaı̈de, José; Chaffanet, Max; Xue, Song; Nguyen, Karine; Reversade, Bruno; Déjardin, Jérôme; Baudot, Anaı̈s; Jd, Robin; Magdinier, Frédérique

doi:10.1101/2021.05.17.444338

Cited by 2 publications

(3 citation statements)

References 60 publications

(125 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Consistent with previous findings (41) we observed the co-binding of CTCF at many of these SMCHD1bound enhancers (Supplementary Figure S4E). This indicates a role for SMCHD1 in helping establish active enhancers at genes involved in cell cycle regulation.…”

Section: Smchd1 Binds At Transcriptional Regulatory Regions Of Cell C...supporting

confidence: 93%

SMCHD1 activates the expression of genes required for the expansion of human myoblasts

Wong,

Gardner,

Megeney

et al. 2024

Preprint

View full text Add to dashboard Cite

SMCHD1 is an epigenetic regulatory protein known to modulate the targeted repression of large chromatin domains. Diminished SMCHD1 function in muscle fibers causes Facioscapulohumeral Muscular Dystrophy (FSHD2) through derepression of the D4Z4 chromatin domain, an event which permits the aberrant expression of the disease-causing gene DUX4. Given that SMCHD1 plays a broader role in establishing the cellular epigenome, we examined whether loss of SMCHD1 function might affect muscle homeostasis through additional mechanisms. Here we show that acute depletion of SMCHD1 results in a DUX4-independent defect in myoblast proliferation. Genomic and transcriptomic experiments determined that SMCHD1 associates with enhancers of genes controlling cell cycle to activate their expression. Amongst these cell cycle regulatory genes, we identified LAP2 as a key target of SMCHD1 required for the expansion of myoblasts, where the ectopic expression of LAP2 rescues the proliferation defect of SMCHD1-depleted cells. Thus, the epigenetic regulator SMCHD1 can play the role of a transcriptional co-activator for maintaining the expression of genes required for muscle progenitor expansion. This DUX4-independent role for SMCHD1 in myoblasts suggests that the pathology of FSHD2 may be a consequence of defective muscle regeneration in addition to the muscle wasting caused by spurious DUX4 expression.

show abstract

Section: Smchd1 Binds At Transcriptional Regulatory Regions Of Cell C...supporting

confidence: 93%

SMCHD1 activates the expression of genes required for the expansion of human myoblasts

Wong,

Gardner,

Megeney

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

Section: Discussionsupporting

confidence: 62%

“…TRF2 is relocated towards the most telomeric sequences as telomere shortens, as previously suggested by others 32 . Likewise, regulation by SMCHD1 is possible but appears context-dependent, echoing previous work deciphering its role in Human 45,57,58 . Strikingly, the most consistent trans partner of TPE-OLD (i.e., acts on WE element and is depleted at TPE-OLD loci upon telomere shortening), RBPJ, is a transcriptional factor that was found to function by triggering recruitment of chromatin remodeling complexes, including histone modifiers 59 ; suggesting a dynamic interaction with potential enhancers 60 .…”

Section: Discussionsupporting

confidence: 61%

Telomere Position Effect Over Long Distance acts as a genome-wide epigenetic regulator through a commoncis- element

Chevalier

Pienkwoski

Caron

et al. 2022

Preprint

Self Cite

View full text Add to dashboard Cite

Among epigenetic modifiers, telomeres, represent attractive modulators of the genome in part through position effects. Telomere Position Effect Over Long Distances (TPE-OLD) modulates genes expression by changes in telomere-dependent long-distance loops, with a reach of 10Mb from a telomere. However, TPE-OLD remains poorly defined. To gain further insights into the genome-wide impact of telomere length on genomic and epigenomic regulation through TPE-OLD, we used cells with controlled telomere length combined to a genome wide transcriptome and methylome analysis. By integrating omics data, we identified a common cis-acting motif that behaves as an insulator or enhancer. Using reporter assays integrating this element, we uncovered the trans partners regulating this activity. Further exploiting our cellular model, we observed the depletion of one candidate factor, RBPJ, at TPE-OLD associated loci upon telomere shortening. We concluded that, at the genome-wide level, TPE-OLD is relayed by RBPJ binding Alu-like elements to telomeres that acts as enhancers. In response to external stimuli (i.e., Aging), TPE-OLD might act by coordinating telomere length to the action of Alu newly evolved enhancers in association with RBPJ.

show abstract

SMCHD1 variants may induce variegated expression in Facio Scapulo Humeral Dystophy and Bosma Arhinia and microphtalmia syndrome

Cited by 2 publications

References 60 publications

SMCHD1 activates the expression of genes required for the expansion of human myoblasts

SMCHD1 activates the expression of genes required for the expansion of human myoblasts

Telomere Position Effect Over Long Distance acts as a genome-wide epigenetic regulator through a commoncis- element

Contact Info

Product

Resources

About