Stromal Vascular Fraction Derived Vasculogenesis Is Associated with the Formation of Malformed Lymphatic Vessel Structure

Abstract

Tissue engineering and the development of therapies aimed at manipulating microvascular function require the ability to generate both blood and lymphatic vessels. Adipose-derived stromal vascular fraction (SVF), consisting of endothelial cells, stem cells, pericytes, smooth muscle cells, fibroblasts and immune cells, has emerged as a potential heterogeneous stem cell population for de novo vessel growth. SVF derived vasculogenesis has been reported to result in the dramatic formation of blood vessel segments that can connect with host vasculatures. Understanding how SVF can be used to therapeutically form vessels requires 1) exploration of the cell dynamics involved in the vasculogenesis process and 2) cauterization of the vessel structures. The objective of this study was to characterize SVF de novo vessel formation in an intact adult murine tissue environments. SVF was isolated from subcutaneous adipose in the inguinal region from adult C57BL/6 mice, labeled with DiI and seeded onto avascular mesentery tissues and then cultured in MEM + 10% fetal bovine serum (FBS) for up to 5 days (35 μl SVF cells/tissue; isolated from 1.8 g inguinal fats and resuspended in 200 μl MEM+FBS). Tissues were then labeled for PECAM (endothelial marker) + Lyve-1 (lymphatic marker) or NG2 (pericyte marker). By day 1, individual SVF cells started to form multi-cellular PECAM positive chord structures. Day 3 tissues displayed apparent vessel structures characterized by asterisk shaped clusters displaying a central PECAM positive “hub” and radial “spoke-like” extensions. At later time points and in regions of increased vascular coverage, the vessel structures were connected in a network pattern. In additional studies for which angiogenesis was pre-stimulated in the normally avascular mouse mesenteries, the SVF derived vessels connected to the host networks. A subset of structures during the vasculogenesis process displayed blunt ended lymphatic-like vessel structures termed “blebs.” The endothelial cell “blebs” were characterized by large, irregular diameters and a mosaic of Lyve-1 positive and negative cells. The “blebs” were also observed to connect with nearby SVF derived PECAM positive vessel segments. Our evidence of PECAM positive hub and lymphatic-like blebs provoke questions about SVF derived vessel function and suggest a previously undiscovered potential for SVF to form lymphatic vessel structures. NIH grant R21HL159501. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.