Liposuction aspirates (primarily saline solution, blood, and adipose tissue fragments) separate into fatty and fluid portions. Cells isolated from the fatty portion are termed processed lipoaspirate (PLA) cells and contain adipose-derived adherent stromal cells (ASCs). Here we define cells isolated from the fluid portion of liposuction aspirates as liposuction aspirate fluid (LAF) cells. Stromal vascular fractions (SVF) were isolated separately from both portions and characterized under cultured and non-cultured conditions. A comparable number of LAF and PLA cells were freshly isolated, but fewer LAF cells were adherent. CD34+ CD45- cells from fresh LAF isolates were expanded by adherent culture, suggesting that LAF cells contain ASCs. Although freshly isolated PLA and LAF cells have distinct cell surface marker profiles, adherent PLA and LAF cells have quite similar characteristics with regard to growth kinetics, morphology, capacity for differentiation, and surface marker profiles. After plating, both PLA and LAF cells showed significant increased expression of CD29, CD44, CD49d, CD73, CD90, CD105, and CD151 and decreased expression of CD31 and CD45. Multicolor FACS analysis revealed that SVF are composed of heterogeneous cell populations including blood-derived cells (CD45+), ASCs (CD31- CD34+ CD45- CD90+ CD105- CD146-), endothelial (progenitor) cells (CD31+ CD34+ CD45- CD90+ CD105low CD146+), pericytes (CD31- CD34- CD45- CD90+ CD105- CD146+), and other cells. After plating, ASCs showed a dramatic increase in CD105 expression. Although some adherent ASCs lost CD34 expression with increasing culture time, our culture method maintained CD34 expression in ASCs for at least 10-20 weeks. These results suggest that liposuction-derived cells may be useful and valuable for cell-based therapies.
Injective transfer of autologous aspirated fat is a popular option for soft tissue augmentation, but several issues require attention, including unpredictability and a low survival rate due to partial necrosis. In this study, histologic features and yield of adipose-derived stromal (stem) cells (ASCs) were compared between human aspirated fat and excised whole fat. Aspirated fat contained fewer large vascular structures, and ASC yield was lower in aspirated fat. Aspirated fat was transplanted subcutaneously into severe combined immunodeficiency mice with (cell-assisted lipotransfer; CAL) or without (non-CAL) vascular stromal fractions containing ASCs isolated from adipose tissue. The CAL fat survived better (35% larger on average) than non-CAL fat, and microvasculature was detected more prominently in CAL fat, especially in the outer layers. DiI-labeled vascular stromal fraction cells were found between adipocytes and in the connective tissue in CAL fat, and some of these cells were immunopositive for von Willebrand factor, suggesting differentiation into vascular endothelial cells. Another experiment that used vascular stromal fractions taken from green fluorescent protein rats also suggested that ASCs differentiated into vascular endothelial cells and contributed to neoangiogenesis in the acute phase of transplantation. These findings may partly explain why transplanted aspirated fat does not survive well and suggest clinical potential of the CAL method for soft tissue augmentation.
Recent studies (1-3) provide increasing evidence of roles for lysosphingolipids as mediators to elicit a variety of physiological and pathophysiological responses. Thus, the lysosphingolipids SP 1 and SPC have been shown to evoke diverse cellular responses in various cell types, including mitogenesis (1, 2), inhibition of migration (4, 5), cell shape change (6), and microfilament reorganization (6, 7). Stimulation of cells with the lysosphingolipids triggers the activation of multiple intracellular signaling molecules, including phospholipase C (2, 5, 8, 9), phospholipase D (8), PKC (10), MAPK (5, 11), and K ϩ channel (muscarinic K ϩ current) (12). Many of the lysosphingolipidinduced responses are demonstrated to be inhibited by PTX pretreatment (5, 8 -13). In addition, either an increase or a decrease in cellular cAMP content in response to SP has been reported, depending on cell types used (5, 13). These observations suggest the existence of multiple G protein-coupled cell surface receptors for SP and SPC.Recently, the orphan G protein-coupled receptor EDG2 was identified as a functional receptor for LPA (14). Moreover, EDG4 was very recently identified to be the second LPA receptor (15). EDG2 and EDG4 are members of the EDG family of receptors comprising EDG1 (16), EDG3 (17), and AGR16 (18)/ H218 (19), which have 36 -58% homology in amino acid sequences with each other. SP is related in its structure to LPA, and in some cell types, LPA and SP have been suggested to share a cell surface receptor (20, 21). These observations prompted us to examine the possibility that members of the EDG family receptors could function as a receptor for the lysosphingolipids. Many of cell lines usually used for expression of exogenous genes, including COS, NIH3T3 and HEK293 cells, respond to SP (13), which hampered expression cloning of SP receptor gene and functional analysis of cloned SP receptor gene. In the present study, by using carefully selected mammalian cell expression systems, we found that EDG1 is a functional receptor with a high specificity and affinity for SP. We demonstrate that EDG1 is coupled via a G i/o protein to multiple effector pathways, including phospholipase C, adenylate cyclase, and Ras/MAPK. MATERIALS AND METHODS Cells-CHO-K1(CHO) and HEL cells, obtained from RIKEN CellBank and the Japanese Cancer Research Resources Bank (Tokyo, Japan), respectively, were grown in Ham's F-12 (CHO) and RPMI (HEL) media supplemented with 10% fetal calf serum (Equitech-Bio, Ingram, TX), 100 units/ml penicillin, and 100 g/ml streptomycin (Wako Pure Chemicals, Osaka, Japan). Before each experiment, cells were switched to the respective medium supplemented with 1% fetal calf serum.
Excessive centrifugation can destroy adipocytes and adipose-derived stem cells, but appropriate centrifugation concentrates them, resulting in enhanced graft take. The authors tentatively recommend 1200 g as an optimized centrifugal force for obtaining good short- and long-term results in adipose transplantation.
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