All-Covalent Nuclease-Resistant and Hydrogel-Tethered DNA Hairpin Probes Map pN Cell Traction Forces.
DNA hairpin sensors
DNA tension probes
hydrogel
integrin mechanosensing
mechanobiology
mechanotransduction
Journal
ACS applied materials & interfaces
ISSN: 1944-8252
Titre abrégé: ACS Appl Mater Interfaces
Pays: United States
ID NLM: 101504991
Informations de publication
Date de publication:
19 Jul 2023
19 Jul 2023
Historique:
medline:
21
7
2023
pubmed:
6
7
2023
entrez:
6
7
2023
Statut:
ppublish
Résumé
Cells sense and respond to the physical properties of their environment through receptor-mediated signaling, a process known as mechanotransduction, which can modulate critical cellular functions such as proliferation, differentiation, and survival. At the molecular level, cell adhesion receptors, such as integrins, transmit piconewton (pN)-scale forces to the extracellular matrix, and the magnitude of the force plays a critical role in cell signaling. The most sensitive approach to measuring integrin forces involves DNA hairpin-based sensors, which are used to quantify and map forces in living cells. Despite the broad use of DNA hairpin sensors to study a variety of mechanotransduction processes, these sensors are typically anchored to rigid glass slides, which are orders of magnitude stiffer than the extracellular matrix and hence modulate native biological responses. Here, we have developed nuclease-resistant DNA hairpin probes that are all covalently tethered to PEG hydrogels to image cell traction forces on physiologically relevant substrate stiffness. Using HeLa cells as a model cell line, we show that the molecular forces transmitted by integrins are highly sensitive to the bulk modulus of the substrate, and cells cultured on the 6 and 13 kPa gels produced a greater number of hairpin unfolding events compared to the 2 kPa substrates. Tension signals are spatially colocalized with pY118-paxillin, confirming focal adhesion-mediated probe opening. Additionally, we found that integrin forces are greater than 5.8 pN but less than 19 pN on 13 kPa gels. This work provides a general strategy to integrate molecular tension probes into hydrogels, which can better mimic in vivo mechanotransduction.
Identifiants
pubmed: 37409737
doi: 10.1021/acsami.3c04826
pmc: PMC10360067
doi:
Substances chimiques
Hydrogels
0
DNA Probes
0
DNA
9007-49-2
Integrins
0
Receptors, Cell Surface
0
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
33362-33372Subventions
Organisme : NIAID NIH HHS
ID : R01 AI172452
Pays : United States
Organisme : NIGMS NIH HHS
ID : R01 GM124472
Pays : United States
Organisme : NIGMS NIH HHS
ID : R01 GM131099
Pays : United States
Organisme : NIAID NIH HHS
ID : R56 AI172452
Pays : United States
Organisme : NIGMS NIH HHS
ID : RM1 GM145394
Pays : United States
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