TY - JOUR
T1 - Frontline Science
T2 - Kindlin-3 is essential for patrolling and phagocytosis functions of nonclassical monocytes during metastatic cancer surveillance
AU - Marcovecchio, Paola M.
AU - Zhu, Yanfang Peipei
AU - Hanna, Richard N.
AU - Dinh, Huy Q.
AU - Tacke, Robert
AU - Wu, Runpei
AU - McArdle, Sara
AU - Reynolds, Sophia
AU - Araujo, Daniel J.
AU - Ley, Klaus
AU - Hedrick, Catherine C.
N1 - Funding Information:
We thank Angela Denn at the LJI Histology Core Facility for expert help with the H&E sectioning and staining. All flow cytometry cell sorting was done by the LJI Flow Cytometry Core. Special thanks to Denise, Robin, Chris, and Lara. Help with statistics and heat maps was provided by Alex Buckley. For helpful discussions regarding microscopy, we thank Zbigniew Mikulski in the LJI Imaging Core. We thank Deborah Yoakum for help with mouse breeding. This study was supported by NIH F31 HL132538‐03 (to P.M.M.) and NIH P01HL136275, R01 HL134236, and R01 CA202987 (all to C.C.H.). The FACS Aria III Cell Sorter was acquired through the NIH Shared Instrumentation Grant Program S10 RR027366‐01A1 (to L.J.I.).
Funding Information:
P.M.M and C.C.H. conceived and designed the study, and wrote the manuscript. P.M.M., Y.P.Z., and R.T. performed all the experiments and analyses except where noted in the Acknowledgements. R.N.H. and S.M. provided expertise in lung imaging and aided imaging experiments. R.W. assisted with H&E sample preparation. S.R. assisted with animal experiments and qRT-PCR. D.J.A. edited and reviewed the manuscript, assisted with figures, and produced the graphical abstract. K.L. provided invaluable discussions and manuscript editing as well as Fermt3flox/flox mice. H.Q.D. performed analysis of flow cytometry data using t-SNE and clustering methods. We thank Angela Denn at the LJI Histology Core Facility for expert help with the H&E sectioning and staining. All flow cytometry cell sorting was done by the LJI Flow Cytometry Core. Special thanks to Denise, Robin, Chris, and Lara. Help with statistics and heat maps was provided by Alex Buckley. For helpful discussions regarding microscopy, we thank Zbigniew Mikulski in the LJI Imaging Core. We thank Deborah Yoakum for help with mouse breeding. This study was supported by NIH F31 HL132538-03 (to P.M.M.) and NIH P01HL136275, R01 HL134236, and R01 CA202987 (all to C.C.H.). The FACS Aria III Cell Sorter was acquired through the NIH Shared Instrumentation Grant Program S10 RR027366-01A1 (to L.J.I.).
Publisher Copyright:
©2020 Society for Leukocyte Biology
PY - 2020/6/1
Y1 - 2020/6/1
N2 - Nonclassical monocytes maintain vascular homeostasis by patrolling the vascular endothelium, responding to inflammatory signals, and scavenging cellular debris. Nonclassical monocytes also prevent metastatic tumor cells from seeding new tissues, but whether the patrolling function of nonclassical monocytes is required for this process is unknown. To answer this question, we utilized an inducible-knockout mouse that exhibits loss of the integrin-adaptor protein Kindlin-3 specifically in nonclassical monocytes. We show that Kindlin-3-deficient nonclassical monocytes are unable to patrol the vascular endothelium in either the lungs or periphery. We also find that Kindlin-3-deficient nonclassical monocytes cannot firmly adhere to, and instead “slip” along, the vascular endothelium. Loss of patrolling activity by nonclassical monocytes was phenocopied by ablation of LFA-1, an integrin-binding partner of Kindlin-3. When B16F10 murine melanoma tumor cells were introduced into Kindlin-3-deficient mice, nonclassical monocytes showed defective patrolling towards tumor cells and failure to ingest tumor particles in vivo. Consequently, we observed a significant, 4-fold increase in lung tumor metastases in mice possessing Kindlin-3-deficient nonclassical monocytes. Thus, we conclude that the patrolling function of nonclassical monocytes is mediated by Kindlin-3 and essential for these cells to maintain vascular endothelial homeostasis and prevent tumor metastasis to the lung.
AB - Nonclassical monocytes maintain vascular homeostasis by patrolling the vascular endothelium, responding to inflammatory signals, and scavenging cellular debris. Nonclassical monocytes also prevent metastatic tumor cells from seeding new tissues, but whether the patrolling function of nonclassical monocytes is required for this process is unknown. To answer this question, we utilized an inducible-knockout mouse that exhibits loss of the integrin-adaptor protein Kindlin-3 specifically in nonclassical monocytes. We show that Kindlin-3-deficient nonclassical monocytes are unable to patrol the vascular endothelium in either the lungs or periphery. We also find that Kindlin-3-deficient nonclassical monocytes cannot firmly adhere to, and instead “slip” along, the vascular endothelium. Loss of patrolling activity by nonclassical monocytes was phenocopied by ablation of LFA-1, an integrin-binding partner of Kindlin-3. When B16F10 murine melanoma tumor cells were introduced into Kindlin-3-deficient mice, nonclassical monocytes showed defective patrolling towards tumor cells and failure to ingest tumor particles in vivo. Consequently, we observed a significant, 4-fold increase in lung tumor metastases in mice possessing Kindlin-3-deficient nonclassical monocytes. Thus, we conclude that the patrolling function of nonclassical monocytes is mediated by Kindlin-3 and essential for these cells to maintain vascular endothelial homeostasis and prevent tumor metastasis to the lung.
KW - endothelium
KW - integrins
KW - lungs
KW - metastasis
KW - nonclassical monocytes
KW - patrolling
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UR - http://www.scopus.com/inward/citedby.url?scp=85084342901&partnerID=8YFLogxK
U2 - 10.1002/JLB.4HI0420-098R
DO - 10.1002/JLB.4HI0420-098R
M3 - Article
C2 - 32386455
AN - SCOPUS:85084342901
SN - 0741-5400
VL - 107
SP - 883
EP - 892
JO - Journal of Leukocyte Biology
JF - Journal of Leukocyte Biology
IS - 6
ER -
