Pervasive Genomic Damage in Experimental Intracerebral Hemorrhage: Therapeutic Potential of a Mechanistic-Based Carbon Nanoparticle.
Animals
Carbon
/ pharmacology
Cell Differentiation
/ drug effects
Cells, Cultured
Cellular Senescence
/ drug effects
Cerebral Hemorrhage
/ drug therapy
DNA Breaks, Single-Stranded
/ drug effects
DNA Damage
Deferoxamine
/ pharmacology
Hemin
/ antagonists & inhibitors
Humans
Iron
/ pharmacology
Mice
Mitochondria
/ drug effects
Nanoparticles
/ chemistry
Polyethylene Glycols
/ pharmacology
Reactive Oxygen Species
/ metabolism
ferroptosis
genome damage
hemin
intracerebral hemorrhage
nanomaterial
senescence
Journal
ACS nano
ISSN: 1936-086X
Titre abrégé: ACS Nano
Pays: United States
ID NLM: 101313589
Informations de publication
Date de publication:
24 03 2020
24 03 2020
Historique:
pubmed:
13
2
2020
medline:
2
1
2021
entrez:
13
2
2020
Statut:
ppublish
Résumé
Therapy for intracerebral hemorrhage (ICH) remains elusive, in part dependent on the severity of the hemorrhage itself as well as multiple deleterious effects of blood and its breakdown products such as hemin and free iron. While oxidative injury and genomic damage have been seen following ICH, the details of this injury and implications remain unclear. Here, we discovered that, while free iron produced mostly reactive oxygen species (ROS)-related single-strand DNA breaks, hemin unexpectedly induced rapid and persistent nuclear and mitochondrial double-strand breaks (DSBs) in neuronal and endothelial cell genomes and in mouse brains following experimental ICH comparable to that seen with γ radiation and DNA-complexing chemotherapies. Potentially as a result of persistent DSBs and the DNA damage response, hemin also resulted in senescence phenotype in cultured neurons and endothelial cells. Subsequent resistance to ferroptosis reported in other senescent cell types was also observed here in neurons. While antioxidant therapy prevented senescence, cells became sensitized to ferroptosis. To address both senescence and resistance to ferroptosis, we synthesized a modified, catalytic, and rapidly internalized carbon nanomaterial, poly(ethylene glycol)-conjugated hydrophilic carbon clusters (PEG-HCC) by covalently bonding the iron chelator, deferoxamine (DEF). This multifunctional nanoparticle, DEF-HCC-PEG, protected cells from both senescence and ferroptosis and restored nuclear and mitochondrial genome integrity
Identifiants
pubmed: 32049495
doi: 10.1021/acsnano.9b05821
pmc: PMC7850811
mid: NIHMS1660362
doi:
Substances chimiques
Reactive Oxygen Species
0
Polyethylene Glycols
3WJQ0SDW1A
Hemin
743LRP9S7N
Carbon
7440-44-0
Iron
E1UOL152H7
Deferoxamine
J06Y7MXW4D
Types de publication
Journal Article
Research Support, N.I.H., Extramural
Research Support, Non-U.S. Gov't
Langues
eng
Sous-ensembles de citation
IM
Pagination
2827-2846Subventions
Organisme : NINDS NIH HHS
ID : R01 NS088645
Pays : United States
Organisme : NINDS NIH HHS
ID : R01 NS094535
Pays : United States
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