TY - JOUR
T1 - Hemin-induced transient senescence via DNA damage response
T2 - a neuroprotective mechanism against ferroptosis in intracerebral hemorrhage
AU - Malojirao, Vikas H.
AU - Vasquez, Velmarini
AU - Kodavati, Manohar
AU - Mitra, Joy
AU - Provasek, Vincent
AU - Voh, Anh Tran Tram
AU - Liopo, Anton V.
AU - Derry, Paul J.
AU - Mikheev, Andrei M.
AU - Rostomily, Robert C.
AU - Horner, Philip J.
AU - Tour, James M.
AU - Britz, Gavin W.
AU - Kent, Thomas A.
AU - Hegde, Muralidhar
N1 - Publisher Copyright:
© The Author(s) 2025.
PY - 2025/12
Y1 - 2025/12
N2 - Intracerebral hemorrhage (ICH) poses acute fatality and long-term neurological risks, in part due to hemin and iron accumulation from hemoglobin breakdown. We observed that hemin induces DNA double-strand breaks (DSBs), prompting a senescence-like phenotype in neurons, necessitating a deeper exploration of cellular responses. Using experimental ICH models and human ICH patient tissue, we elucidate hemin-mediated DNA damage response (DDR) inducing transient senescence and delayed expression of heme oxygenase (HO-1). HO-1 co-localizes with senescence-associated β-Galactosidase (SA-β-Gal) in ICH patient tissues, emphasizing the clinical relevance of inducible HO-1 expression in senescent cells. We reveal a reversible senescence state protective against acute cell death by hemin, while repeat exposure leads to long-lasting senescence. Inhibiting early senescence expression increases cell death, supporting the protective role of senescence against hemin toxicity. Hemin-induced senescence is attenuated by a pleiotropic carbon nanoparticle that is a catalytic mimic of superoxide dismutase, but this treatment increased lipid peroxidation, consistent with ferroptosis from hemin breakdown released iron. When coupled with iron chelator deferoxamine (DEF), the nanoparticle reduces hemin-induced senescence and upregulates factors protecting against ferroptosis. Our study suggests transient senescence induced by DDR as an early potential neuroprotective mechanism in ICH, but the risk of iron-related toxicity supports a multi-pronged therapeutic approach.
AB - Intracerebral hemorrhage (ICH) poses acute fatality and long-term neurological risks, in part due to hemin and iron accumulation from hemoglobin breakdown. We observed that hemin induces DNA double-strand breaks (DSBs), prompting a senescence-like phenotype in neurons, necessitating a deeper exploration of cellular responses. Using experimental ICH models and human ICH patient tissue, we elucidate hemin-mediated DNA damage response (DDR) inducing transient senescence and delayed expression of heme oxygenase (HO-1). HO-1 co-localizes with senescence-associated β-Galactosidase (SA-β-Gal) in ICH patient tissues, emphasizing the clinical relevance of inducible HO-1 expression in senescent cells. We reveal a reversible senescence state protective against acute cell death by hemin, while repeat exposure leads to long-lasting senescence. Inhibiting early senescence expression increases cell death, supporting the protective role of senescence against hemin toxicity. Hemin-induced senescence is attenuated by a pleiotropic carbon nanoparticle that is a catalytic mimic of superoxide dismutase, but this treatment increased lipid peroxidation, consistent with ferroptosis from hemin breakdown released iron. When coupled with iron chelator deferoxamine (DEF), the nanoparticle reduces hemin-induced senescence and upregulates factors protecting against ferroptosis. Our study suggests transient senescence induced by DDR as an early potential neuroprotective mechanism in ICH, but the risk of iron-related toxicity supports a multi-pronged therapeutic approach.
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U2 - 10.1038/s42003-025-07983-3
DO - 10.1038/s42003-025-07983-3
M3 - Article
AN - SCOPUS:105002966940
SN - 2399-3642
VL - 8
JO - Communications Biology
JF - Communications Biology
IS - 1
M1 - 622
ER -