Liao Y et al., PNAS - Human dermal fibroblasts from young and old donors were embedded in 3D collagen and exposed to mechanical tension and TGF-β. Combining bulk RNA‑seq, ATAC‑seq, imaging, and perturbations, the study shows that matrix tension amplifies TGF‑β responses in young but not aged cells and identifies AP‑1 as a central chromatin-associated regulator required for fibroblast activation. Key terms: chromatin accessibility, mechanotransduction, aging, TGF-β signaling, AP-1.

Study Highlights:
Young fibroblasts under matrix tension mount a strong, synergistic transcriptional response to TGF‑β while aged fibroblasts exhibit blunted or divergent responses. Age-dependent differences in chromatin accessibility, notably at distal regulatory elements, correlate with these transcriptional outcomes. AP‑1 family motifs are highly enriched in TGF‑β- and age-responsive accessible regions and cooperate with age-specific TFs. Inhibiting AP‑1 activity prevents JUNB recruitment to RNA polymerase II and suppresses myofibroblast activation.

Conclusion:
3D chromatin accessibility acts as a dynamic filter of mechanical and biochemical signals during aging; AP‑1 and its regulatory network drive the age-specific chromatin remodeling that permits synergistic tension + TGF‑β responses in young fibroblasts, and AP‑1 inhibition blocks this activation, suggesting a potential therapeutic axis.

Music:
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Article title:
Chromatin accessibility regulates age- dependent nuclear mechanotransduction

First author:
Liao Y

Journal:
PNAS

DOI:
10.1073/pnas.2522217123

Reference:
Liao Y, Land M, Gupta R, Yu L, Sornapudi TR, Shivashankar GV. Chromatin accessibility regulates age-dependent nuclear mechanotransduction. PNAS. 2026;123(13):e2522217123. doi:10.1073/pnas.2522217123. Published March 26, 2026.

License:
This episode is based on an open-access article published under the Creative Commons Attribution 4.0 International License (CC BY 4.0) – https://creativecommons.org/licenses/by/4.0/

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Episode link: https://basebybase.com/episodes/base-by-base-332-chromatin-age-mechanotransduction

QC:
This episode was checked against the original article PDF and publication metadata for the episode release published on 2026-04-02.

QC Scope:
- article metadata and core scientific claims from the narration
- excludes analogies, intro/outro, and music
- transcript coverage: Substantive auditing covered the study’s central mechanistic story: aging as a chromatin-filter for mechanochemical signaling; AP-1 as master regulator; age-specific TF partnerships; the 3D collagen tension model; ATAC-seq/RNA-seq integration; and AP-1 perturbation experiments.
- transcript topics: Aging as chromatin-based signaling filter; 3D collagen gel tension model with glass ring; TGF-β signaling and mechanical tension synergy; AP-1 as master regulator; age-specific partners (JUNB vs HOXB13); ATAC-seq and RNA-seq integration; Perturbation experiments (siJUNB, T-5224, kinase inhibitors)

QC Summary:
- factual score: 10/10
- metadata score: 9/10
- supported core claims: 6
- claims flagged for review: 0
- metadata checks passed: 4
- metadata issues found: 0

Metadata Audited:
- article_doi
- article_title
- article_journal
- license
- publish_description_text

Factual Items Audited:
- Young fibroblasts exhibit synergistic gene expression enhancement to combined mechanical tension and TGF-β; aging cells show a blunted/divergent response
- Quantified transcriptional shifts: 2128 DE genes in young vs 391 DE genes in old under dual stimulation
- AP-1 motifs are enriched in age- and TGF-β-responsive chromatin regions (DACRs)
- AP-1 partner usage is age-dependent: JUNB in young cells, HOXB13 in old cells
- Disruption of AP-1 (siJUNB or T-5224) suppresses TGF-β–mediated induction of α-SMA and COL1A1
- AP-1 recruitment to RNA Pol II is modulated by upstream kinases; JNK/p38/PI3K influence recruitment, ERK affects post-recruitment potency

QC result: Pass.