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Distinct niches within the extracellular matrix dictate fibroblast function in (cell free) 3D lung tissue cultures.
Am. J. Physiol. Lung Cell Mol. Physiol. 314, L708-L723 (2018)
Cues from the extracellular matrix (ECM) and their functional interplay with cells play pivotal roles for development, tissue repair, and disease. However, the precise nature of this interplay remains elusive. We used an innovative 3D cell culture ECM model by decellularizing 300-µm-thick ex vivo lung tissue scaffolds (d3D-LTCs) derived from diseased and healthy mouse lungs, which widely mimics the native (patho)physiological in vivo ECM microenvironment. We successfully repopulated all d3D-LTCs with primary human and murine fibroblasts, and moreover, we demonstrated that the cells also populated the innermost core regions of the d3D-LTCs in a real 3D fashion. The engrafted fibroblasts revealed a striking functional plasticity, depending on their localization in distinct ECM niches of the d3D-LTCs, affecting the cells' tissue engraftment, cellular migration rates, cell morphologies, and protein expression and phosphorylation levels. Surprisingly, we also observed fibroblasts that were homing to the lung scaffold's interstitium as well as fibroblasts that were invading fibrotic areas. To date, the functional nature and even the existence of 3D cell matrix adhesions in vivo as well as in 3D culture models is still unclear and controversial. Here, we show that attachment of fibroblasts to the d3D-LTCs evidently occurred via focal adhesions, thus advocating for a relevant functional role in vivo. Furthermore, we found that protein levels of talin, paxillin, and zyxin and phosphorylation levels of paxillin Y118, as well as the migration-relevant small GTPases RhoA, Rac, and CDC42, were significantly reduced compared with their attachment to 2D plastic dishes. In summary, our results strikingly indicate that inherent physical or compositional characteristics of the ECM act as instructive cues altering the functional behavior of engrafted cells. Thus, d3D-LTCs might aid to obtain more realistic data in vitro, with a high relevance for drug discovery and mechanistic studies alike.
Impact Factor
Scopus SNIP
Web of Science
Times Cited
Times Cited
Scopus
Cited By
Cited By
Altmetric
4.092
0.997
17
19
Anmerkungen
Besondere Publikation
Auf Hompepage verbergern
Publikationstyp
Artikel: Journalartikel
Dokumenttyp
Wissenschaftlicher Artikel
Schlagwörter
3d Cell Culture Models ; Tissue Decellularization ; Biomechanics ; Pharmacological Drug Testing And Translational Medicine ; Tissue Engineering; Cancer-associated Fibroblasts; In-vitro; Orthotopic Transplantation; Rat Lung; Slices; Microenvironments; Adhesions; Muscle; Myofibroblasts; 3rd-dimension
Sprache
Veröffentlichungsjahr
2018
HGF-Berichtsjahr
2018
ISSN (print) / ISBN
1040-0605
e-ISSN
1522-1504
Quellenangaben
Band: 314,
Heft: 5,
Seiten: L708-L723
Verlag
American Physiological Society
Verlagsort
Bethesda, Md. [u.a.]
Begutachtungsstatus
Peer reviewed
Institut(e)
Institute of Lung Health and Immunity (LHI)
POF Topic(s)
30202 - Environmental Health
Forschungsfeld(er)
Lung Research
PSP-Element(e)
G-501600-014
WOS ID
WOS:000440950700002
Scopus ID
85057534665
PubMed ID
29345200
Erfassungsdatum
2018-03-02