Lymphatic Drainage-Promoting Effects by Engraftment of Artificial Lymphatic Vascular Tissue Based on Human Adipose Tissue-Derived Mesenchymal Stromal Cells in Mice

Regenerative medicine using lymphatic vascular engineering is a promising approach for treating lymphedema. However, its development lags behind that of artificial blood vascular tissue for ischemic diseases. In this study, we constructed artificial 3D lymphatic vascular tissue, termed ASCLT, by co-...

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Published in	Journal of tissue engineering and regenerative medicine Vol. 2023; pp. 1 - 15
Main Authors	Asano, Yoshiya, Shimoda, Hiroshi, Okano, Daisuke, Matsusaki, Michiya, Akashi, Mitsuru
Format	Journal Article
Language	English
Published	England Hindawi 2023 John Wiley & Sons, Inc
Subjects	Adipose tissue Adipose Tissue - cytology Angiogenesis Animals Blood vessels Body fat Construction Dextran Dextrans Endothelial cells Endothelial Cells - cytology Endothelial Cells - metabolism Engraftment Extracellular matrix Fibroblast growth factor 2 Fibroblasts Humans Ischemia Lymph nodes Lymphangiogenesis Lymphatic drainage Lymphatic system Lymphatic Vessels Lymphedema Mesenchymal Stem Cell Transplantation Mesenchymal stem cells Mesenchymal Stem Cells - cytology Mesenchymal Stem Cells - metabolism Mice Microscopy Network formation Regeneration (physiology) Regenerative medicine Software Stromal cells Therapeutic applications Tissue engineering Tissue Engineering - methods Transplantation Transplants & implants Vascular endothelial growth factor Vascular tissue Japan Germany Fiji
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Abstract	Regenerative medicine using lymphatic vascular engineering is a promising approach for treating lymphedema. However, its development lags behind that of artificial blood vascular tissue for ischemic diseases. In this study, we constructed artificial 3D lymphatic vascular tissue, termed ASCLT, by co-cultivation of ECM-nanofilm-coated human adipose tissue-derived mesenchymal stromal cells (hASCs) and human dermal lymphatic endothelial cells (HDLECs). The effect of hASCs in lymphatic vessel network formation was evaluated by comparison with the tissue based on fibroblasts, termed FbLT. Our results showed that the density of lymphatic vascular network in ASCLT was higher than that in FbLT, demonstrating a promoting effect of hASCs on lymphatic vascular formation. This result was also supported by higher levels of lymphangiogenesis-promoting factors, such as bFGF, HGF, and VEGF-A in ASCLT than in FbLT. To evaluate the therapeutic effects, FbLTs and ASCLTs were subcutaneously transplanted to mouse hindlimb lymphatic drainage interruption models by removal of popliteal and subiliac lymph nodes. Despite the restricted engraftment of lymphatic vessels, ASCLT promoted regeneration of irregular and diverse lymphatic drainage in the skin, as visualized by indocyanine green imaging. Moreover, transplantation of ASCLT to the popliteal lymph node resection area also resulted in lymphatic drainage regeneration. Histological analysis of the generated drainage visualized by FITC-dextran injection revealed that the drainage was localized in the subcutaneous area shallower than the dermal muscle. These findings demonstrate that ASCLT promotes lymphatic drainage in vivo and that hASCs can serve as an autologous source for treatment of secondary lymphedema by tissue engineering.
AbstractList	Regenerative medicine using lymphatic vascular engineering is a promising approach for treating lymphedema. However, its development lags behind that of artificial blood vascular tissue for ischemic diseases. In this study, we constructed artificial 3D lymphatic vascular tissue, termed ASCLT, by co-cultivation of ECM-nanofilm-coated human adipose tissue-derived mesenchymal stromal cells (hASCs) and human dermal lymphatic endothelial cells (HDLECs). The effect of hASCs in lymphatic vessel network formation was evaluated by comparison with the tissue based on fibroblasts, termed FbLT. Our results showed that the density of lymphatic vascular network in ASCLT was higher than that in FbLT, demonstrating a promoting effect of hASCs on lymphatic vascular formation. This result was also supported by higher levels of lymphangiogenesis-promoting factors, such as bFGF, HGF, and VEGF-A in ASCLT than in FbLT. To evaluate the therapeutic effects, FbLTs and ASCLTs were subcutaneously transplanted to mouse hindlimb lymphatic drainage interruption models by removal of popliteal and subiliac lymph nodes. Despite the restricted engraftment of lymphatic vessels, ASCLT promoted regeneration of irregular and diverse lymphatic drainage in the skin, as visualized by indocyanine green imaging. Moreover, transplantation of ASCLT to the popliteal lymph node resection area also resulted in lymphatic drainage regeneration. Histological analysis of the generated drainage visualized by FITC-dextran injection revealed that the drainage was localized in the subcutaneous area shallower than the dermal muscle. These findings demonstrate that ASCLT promotes lymphatic drainage in vivo and that hASCs can serve as an autologous source for treatment of secondary lymphedema by tissue engineering. Regenerative medicine using lymphatic vascular engineering is a promising approach for treating lymphedema. However, its development lags behind that of artificial blood vascular tissue for ischemic diseases. In this study, we constructed artificial 3D lymphatic vascular tissue, termed ASCLT, by co-cultivation of ECM-nanofilm-coated human adipose tissue-derived mesenchymal stromal cells (hASCs) and human dermal lymphatic endothelial cells (HDLECs). The effect of hASCs in lymphatic vessel network formation was evaluated by comparison with the tissue based on fibroblasts, termed FbLT. Our results showed that the density of lymphatic vascular network in ASCLT was higher than that in FbLT, demonstrating a promoting effect of hASCs on lymphatic vascular formation. This result was also supported by higher levels of lymphangiogenesis-promoting factors, such as bFGF, HGF, and VEGF-A in ASCLT than in FbLT. To evaluate the therapeutic effects, FbLTs and ASCLTs were subcutaneously transplanted to mouse hindlimb lymphatic drainage interruption models by removal of popliteal and subiliac lymph nodes. Despite the restricted engraftment of lymphatic vessels, ASCLT promoted regeneration of irregular and diverse lymphatic drainage in the skin, as visualized by indocyanine green imaging. Moreover, transplantation of ASCLT to the popliteal lymph node resection area also resulted in lymphatic drainage regeneration. Histological analysis of the generated drainage visualized by FITC-dextran injection revealed that the drainage was localized in the subcutaneous area shallower than the dermal muscle. These findings demonstrate that ASCLT promotes lymphatic drainage in vivo and that hASCs can serve as an autologous source for treatment of secondary lymphedema by tissue engineering.Regenerative medicine using lymphatic vascular engineering is a promising approach for treating lymphedema. However, its development lags behind that of artificial blood vascular tissue for ischemic diseases. In this study, we constructed artificial 3D lymphatic vascular tissue, termed ASCLT, by co-cultivation of ECM-nanofilm-coated human adipose tissue-derived mesenchymal stromal cells (hASCs) and human dermal lymphatic endothelial cells (HDLECs). The effect of hASCs in lymphatic vessel network formation was evaluated by comparison with the tissue based on fibroblasts, termed FbLT. Our results showed that the density of lymphatic vascular network in ASCLT was higher than that in FbLT, demonstrating a promoting effect of hASCs on lymphatic vascular formation. This result was also supported by higher levels of lymphangiogenesis-promoting factors, such as bFGF, HGF, and VEGF-A in ASCLT than in FbLT. To evaluate the therapeutic effects, FbLTs and ASCLTs were subcutaneously transplanted to mouse hindlimb lymphatic drainage interruption models by removal of popliteal and subiliac lymph nodes. Despite the restricted engraftment of lymphatic vessels, ASCLT promoted regeneration of irregular and diverse lymphatic drainage in the skin, as visualized by indocyanine green imaging. Moreover, transplantation of ASCLT to the popliteal lymph node resection area also resulted in lymphatic drainage regeneration. Histological analysis of the generated drainage visualized by FITC-dextran injection revealed that the drainage was localized in the subcutaneous area shallower than the dermal muscle. These findings demonstrate that ASCLT promotes lymphatic drainage in vivo and that hASCs can serve as an autologous source for treatment of secondary lymphedema by tissue engineering.
Author	Matsusaki, Michiya Asano, Yoshiya Okano, Daisuke Akashi, Mitsuru Shimoda, Hiroshi
AuthorAffiliation	1 Department of Neuroanatomy, Cell Biology and Histology, Hirosaki University Graduate School of Medicine, 5 Zaifu-cho, Hirosaki, Aomori 036-8562, Japan 2 Department of Anatomical Science, Hirosaki University Graduate School of Medicine, 5 Zaifu-cho, Hirosaki, Aomori 036-8562, Japan 3 Department of Applied Chemistry, Graduate School of Engineering, Osaka University, 2-1 Yamada-oka, Suita, Osaka 565-0871, Japan 4 Building Block Science, Graduate School of Frontier Biosciences, Osaka University, 1-3 Yamada-oka, Suita, Osaka 565-0871, Japan
AuthorAffiliation_xml	– name: 3 Department of Applied Chemistry, Graduate School of Engineering, Osaka University, 2-1 Yamada-oka, Suita, Osaka 565-0871, Japan – name: 4 Building Block Science, Graduate School of Frontier Biosciences, Osaka University, 1-3 Yamada-oka, Suita, Osaka 565-0871, Japan – name: 2 Department of Anatomical Science, Hirosaki University Graduate School of Medicine, 5 Zaifu-cho, Hirosaki, Aomori 036-8562, Japan – name: 1 Department of Neuroanatomy, Cell Biology and Histology, Hirosaki University Graduate School of Medicine, 5 Zaifu-cho, Hirosaki, Aomori 036-8562, Japan
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Cites_doi	10.1073/pnas.0404272101 10.1007/s11764-020-00928-1 10.1007/s10147-005-0518-5 10.1002/jcp.24063 10.1186/s13036-018-0122-7 10.1126/scisignal.2005413 10.1101/cshperspect.a022293 10.1038/sj.emboj.7600763 10.1038/s41586-019-1794-y 10.1371/journal.pone.0040497 10.1016/j.jss.2014.07.059 10.1038/s41598-020-67289-8 10.1371/journal.pone.0106034 10.5851/kosfa.2022.e46 10.1007/s00005-016-0394-x 10.1002/term.2570 10.2217/rme.15.24 10.1038/s41598-021-97547-2 10.4252/wjsc.v12.i1.1 10.1016/j.actbio.2021.08.005 10.1002/jbm.a.34468 10.1002/dvdy.24227 10.1089/ten.TEA.2020.0378 10.1093/jmicro/dfu005 10.1097/SAP.0000000000000084 10.5999/aps.2021.00339 10.1371/journal.pone.0074686 10.1046/j.1087-0024.2000.00001.x 10.1016/j.yexcr.2015.11.015 10.1002/jcb.25557 10.1158/0008-5472.CAN-08-1879 10.1096/fj.03-1179fje 10.1152/ajpheart.00879.2008 10.1002/jbm.a.36211 10.1038/s41467-018-03959-6 10.1007/s10456-022-09831-y 10.2217/fon.11.121 10.1007/s00276-022-02991-y 10.2217/rme-2020-0071 10.1111/gtc.12852 10.3389/fbioe.2017.00025 10.1182/blood-2004-08-3382 10.1055/s-0038-1632401 10.2217/rme-2016-0038 10.1016/j.biomaterials.2014.01.079 10.1002/ctm2.758 10.1096/fj.202002426RR 10.1002/cbin.11093 10.1007/s10549-015-3639-1
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Copyright	Copyright © 2023 Yoshiya Asano et al. Copyright © 2023 Yoshiya Asano et al. This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. https://creativecommons.org/licenses/by/4.0 Copyright © 2023 Yoshiya Asano et al. 2023
Copyright_xml	– notice: Copyright © 2023 Yoshiya Asano et al. – notice: Copyright © 2023 Yoshiya Asano et al. This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. https://creativecommons.org/licenses/by/4.0 – notice: Copyright © 2023 Yoshiya Asano et al. 2023
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Snippet	Regenerative medicine using lymphatic vascular engineering is a promising approach for treating lymphedema. However, its development lags behind that of...
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SubjectTerms	Adipose tissue Adipose Tissue - cytology Angiogenesis Animals Blood vessels Body fat Construction Dextran Dextrans Endothelial cells Endothelial Cells - cytology Endothelial Cells - metabolism Engraftment Extracellular matrix Fibroblast growth factor 2 Fibroblasts Humans Ischemia Lymph nodes Lymphangiogenesis Lymphatic drainage Lymphatic system Lymphatic Vessels Lymphedema Mesenchymal Stem Cell Transplantation Mesenchymal stem cells Mesenchymal Stem Cells - cytology Mesenchymal Stem Cells - metabolism Mice Microscopy Network formation Regeneration (physiology) Regenerative medicine Software Stromal cells Therapeutic applications Tissue engineering Tissue Engineering - methods Transplantation Transplants & implants Vascular endothelial growth factor Vascular tissue
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Title	Lymphatic Drainage-Promoting Effects by Engraftment of Artificial Lymphatic Vascular Tissue Based on Human Adipose Tissue-Derived Mesenchymal Stromal Cells in Mice
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