Determinations of adipose cell size and number in suspensions of isolated rat and human adipose cells

The osmic acid fixation-Coulter electronic counter method described for determining adipose cell size and number in intact adipose tissue fragments has been modified for use with suspensions of isolated rat and human adipose cells. Mean cell sizes in tissue fragments and isolated cell suspensions prepared from the same tissue are virtually identical in rats of various weights. No statistically significant difference in mean adipose cell size between tissue and isolated cell suspension was observed in human adipose tissue although the variability was much greater than in rat tissue. The distribution of cell sizes among replicate samples is more uniform in the isolated cell preparations, possibly reflecting the considerably larger quantities of tissue used in preparing isolated cells than in determining cell size and number directly from tissue fragments. An example of the utility of the modified method during routine metabolic studies with isolated rat epididymal adipose cells is described; isolated cells of increasing size can be obtained from rats of increasing body weight, or from the separated distal and proximal portions of the fat pads of rats of the same weight.     

Effect of cell size on lipid synthesis by human adipose tissue in vitro

When adipose tissue cells were incubated with collagenase for different periods of time, cell populations with different mean cell sizes were obtained from the same tissue sample. Lipid synthesis from glucose was studied as a function of adipose cell size and number. The incubations were performed in Parker medium 199, which is suitable for tissue culture of human adipose tissue. The results show that the larger cells of a specimen have a greater rate of lipid synthesis than the smaller cells of the same specimen. This is mainly due to an increase in the synthesis of glyceride-glycerol. Addition of insulin stimulated lipid synthesis. However, the larger adipose cells were less sensitive to the stimulating effect of insulin than the smaller cells.     

Human adipose tissue endothelial cells promote preadipocyte proliferation

Adipogenesis is preceded by development of a microvascular network, and optimal functioning of adipose tissue as an energy store and endocrine organ is dependent on extensive vascularization. We have examined the role of endothelial cell-derived factors that influence the proliferation of human preadipocytes. Microvascular endothelial cells and preadipocytes were isolated from human omental and subcutaneous adipose tissue biopsies by use of a developed procedure of collagenase digest, immunoselection, and differential trypsinization. Conditioned medium from microvascular endothelial cell cultures promoted the proliferation of preadipocytes (P = <0.001) and (to a lesser extent) other cell types. No depot-specific differences in mitogenic capacity of microvascular endothelial cell medium or of preadipocyte response were observed. These results indicate that adipose tissue endothelial cells secrete soluble adipogenic factor(s).     

A non-enzymatic method for isolating human adipose tissue-derived stromal stem cells

Background aimsThe isolation of human adipose stromal/stem cells (ASCs) currently relies on the use of the enzyme collagenase, which digests the triple helix region of peptide bonds in the collagen of adipose tissue. Collagenase is an expensive reagent derived from a bacterial source, and its use in isolating ASCs is a time-consuming procedure. This experiment evaluated the extraction of ASCs without an enzymatic digest.MethodsWe used a simple method of washing adipose tissue to isolate and characterize the cells and compared this method with the enzymatic procedure in terms of processing time, stem cell yield, differentiation potential and immunophenotype.ResultsBased on fluorescence activated cell sorting analysis, the stromal vascular fractions isolated with the washing method displayed a distinct and potentially favorable immunophenotype relative to the collagenase digestion. This difference may reflect the absence of chemical alteration of the cells by collagenase digestion. Independent of the isolation procedure, the resulting passaged ASCs were comparable based on immunophenotype and adipogenic and osteogenic differentiation potential.ConclusionsAlthough using collagenase substantially increases cell yield, the two methods yield a similar cell product.     

Observations on preadipocytes and their distribution patterns in rat adipose tissue

Microscopic examination of adipocytes isolated from adult rat epididymal adipose tissue revealed numerous small cells (< 10 μm) morphologically similar to larger adipocytes. These small adipocytes appear identical to a new classification of adipose cells termed preadipocytes. Electron micrographs of these preadipocytes revealed examples of cells < 10 μm in diameter in various stages of maturation and lipid accumulation. The percent distribution pattern of these small adipocytes was not significantly altered by exercise although exercise shifted the distribution patterns of the larger cells (> 30 μm) toward a smaller mean cell size. The quantitative significance of preadipocytes is not established but these preliminary observations indicate that adipocytes < 10 μm in diameter may account for a numerically greater proportion of the total adipocytes observed in collagenase isolated preparations than heretofore recognized, although their contribution to total adipose mass is probably negligible.     

New scanning electron microscopic method for determination of adipocyte size in humans and mice

Objective: To evaluate a new scanning electronic microscopic (EM) method for assessing fat cell sizes and compare fat cell size distribution in human adipose tissue from different fat depots before and after weight loss. Research Methods and Procedures: Identical human fat tissue biopsies were separated into two fractions: one used to prepare a fat cell suspension by collagenase digestion followed by photomicrography (collagenase method) and the other fixed in formalin for EM analysis. The EM method was evaluated further by determining fat cell sizes from lean and ob/ob mice. Finally, the EM method was used to assess fat cell sizes in biopsies of different human depots from before and after weight loss. Results: Fat cell size distributions measured by the two methods were not identical, but differences were generally small. The EM method reproduced the well‐documented fat cell size difference between lean and ob/ob mice. Large variation was detected in fat cell distributions among three depots in humans. Weight loss reduced fat cell sizes in subjects with large baseline fat cells but had no effect in subjects with small baseline fat cell sizes. Discussion: Our results suggest that the EM method may be a useful alternative for fat cell size analysis of clinical samples.     

Nature of the inhibitory effect of collagenase on phosphodiesterase activity

The level of phosphodiesterase (PDE) activity is lower in collagenase-isolated human fat cells than in adipose tissue fragments. The inhibition is not species-specific since collagenase also inhibits PDE in rat adipose tissue and bovine heart. In subcellular fractions from isolated fat cells, the PDE activities were lowest in the plasma membrane-enriched fractions and highest in the cytosolic fractions. This is opposite to PDE in subcellular fractions obtained from adipose tissue fragments. In dose-response experiments, collagenase inhibited particulate PDE to a much larger extent than it inhibited soluble PDE. The extracellular activities of PDE were completely eliminated by collagenase. Repeated washings or reincubation of the isolated fat cells did not restore the PDE activity. A purified collagenase with low specific protease activity reduced the PDE activity in isolated fat cells to a lesser extent than did a collagenase with high specific protease activities. Collagen and several protease inhibitors were ineffective in preventing the reduction of PDE after exposure to collagenase. It is concluded that nonspecific proteases in the collagenase preparations used for fat cell isolation interact with particulate and soluble PDE causing an irreversible inhibition of PDE activity in isolated fat cells. Of the various forms of PDE, plasma membrane-associated PDE seems most sensitive to collagenase.     

Comparative study on human and bovine AT-SC isolation methods

Mammalian adipose tissue derived stem cells (AT-SC) have a tremendous potential in regenerative medicine for tissue engineering and somatic nuclear transfer (SNT). The isolation methods of human and bovine adipose tissue derived stem cells are compared in this paper to determine the feasibility and optimum method of isolation. The optimum isolation method will reduce the processing time, efforts and money as isolation is the first crucial and important step in stem cells research. Human abdominal subcutaneous adipose tissue and bovine abdominal subcutaneous adipose tissue are digested in three collagenase type 1 concentration 0.075%, 0.3% and 0.6% agitated at 1 h and 2 h under 37 °C in 5% CO₂ incubator. The cultures are then morphologically characterised. Human adipose tissue stem cells are found to be best isolated using abdominal subcutaneous depot, using 0.075% collagenase type 1 agitated at 1 h under 37 °C in CO₂ incubator. While bovine adipose tissue derived stem cells are best isolated using abdominal subcutaneous depot, using 0.6% collagenase type 1 agitated at 2 h under 37 °C in CO₂ incubator.     

Recellularization of decellularized human adipose-tissue-derived extracellular matrix sheets with other human cell types

Decellularized human extracellular matrices (ECMs) are an extremely appealing biomaterial for tissue engineering and regenerative medicine. In this study, we decellularized human adipose tissue, fabricated a thin ECM sheet and explored the potential of this human adipose-derived ECM sheet as a substrate to support the formation of tissues other than adipose tissue. Acellular ECM sheets were fabricated from human adipose tissue through successive physical and chemical treatments: homogenization, centrifugation, casting, freeze-drying and sodium dodecyl sulfate treatment. The ECM sheets exhibited good mechanical properties, despite their porous structure. They degraded quickly in the presence of collagenase and the degradation rate increased with the collagenase concentration in phosphate-buffered saline. Five different human cell types, covering a broad range of cells and applications (normal human dermal fibroblasts, human aortic smooth muscle cells, human chondrocytes, human umbilical vein endothelial cells and human adipose-derived stem cells), were seeded onto the ECM sheets. All the human cell types spread well, proliferated and were successfully integrated into the decellularized ECM sheet. Overall, the results suggest that recellularized ECM sheets are a promising substitute for defective or damaged human tissues.     

Methods for the determination of adipose cell size in man and animals

Four methods for the sizing of adipose cells in small samples of human or animal adipose tissue are compared. These methods depend on the preparation of cell suspensions by incubation of the tissue with collagenase or by prolonged fixation with osmium tetroxide and separation of the fixed cells. A Coulter electronic counter was used to count and size the suspended cells and a Zeiss particle size analyzer for the sizing of cells in photomicrographs. The use of the Coulter counter to count cells in a suspension derived from a known amount of tissue and subjected to osmium tetroxide fixation is recommended for accuracy and general applicability to adipose cells of all sizes in man and animals.     

Scanning electron microscopy of very small fat cells and mature fat cells in human obesity

To determine the effect of obesity on the size distribution of fat cell populations in human adipose tissue, omental fat tissue biopsies were obtained from lean, moderately obese, and massively obese patients. The size distributions of adipocytes from lean and obese fat tissues examined by the scanning electron microscopic method were bimodal, consisting of populations of very small fat cells and mature fat cells, in contrast to collagenase-derived isolated cells that showed only the large mature fat cells. The very small fat cell population represented 21 to 26% of the total fat cell number in the lean and in both obese groups. In contrast, preparations of human fat cells isolated by the collagenase method systematically excluded the very small fat cells. In massive obesity, both cell populations participated in the hyperplastic growth but only the larger mature fat cells increased in size, implying that these two cell populations differ in their physiological role.     

Development of a human adipocyte synthetic polymer scaffold.

Because of the need for methods for successful transplantation of autologous fat, the differentiation of human preadipocytes on surgical mesh coated with various extracellular matrix components was investigated. Biopsy specimens of human adipose tissue were collected from seven different patients and were subjected to collagenase digestion and selective filtration, resulting in primary cultures of human preadipocytes. Fluortex monofilament-expanded polytetrafluoroethylene (52-/xm pore size) was as a template for coating with either human collagen, albumin, or fibronectin, followed by sodding with established cultures of human preadipocytes. Sodding efficiency on the different matrices was determined by trypsinization of attached cells at different time periods. Preadipocytes did not attach to uncoated polytetrafluoroethylene, but did attach to protein-coated mesh, and in a variable manner. Fibronectin-coating resulted in the highest efficiency of sodding, with differentiation of preadipocytes to adipocytes as assessed by scanning electron -microscopy and conventional Oil Red O staining. Similar results were achieved by using rat (n = 6) perirenal adipose tissue. This new method of adipocyte scaffolding may be used for improving soft-tissue augmentation and serving as a delivery system for growth factors important in wound healing.     

Lipogenesis and lipoprotein lipase in human adipose tissue: reproducibility of measurements and relationships with fat cell size

Lipogenesis from glucose and lipoprotein lipase activity were investigated in humans. The reliability of measurements was quantified and correlations with fat cell weight were assessed. Twenty-four subjects (7 women, 17 men) were studied twice within a 2-week period, along with 17 additional male subjects who were studied once and used only in the correlation analyses. All subjects were not regularly involved in an exercise-training program and were between 18 and 30 years of age. Following an overnight fast, adipose tissue specimens were obtained by suprailiac biopsy and fat cells were collagenase isolated. Mean fat cell weight was obtained from 400 to 500 cell diameter determinations per subject. Basal and insulin-stimulated fat cell lipogenesis from glucose were determined using D-[U-14C]glucose and were reported in nanomoles of glucose per hour per 10(6) cells. Adipose tissue heparin-releasable lipoprotein lipase activity was also determined and expressed in micromoles of free fatty acids per hour per gram of tissue and per 10(6) cells. Fat cell weight, basal and insulin-stimulated lipogenesis and lipoprotein lipase activity per gram showed high reliability of measurement, interclass and intraclass coefficients being 0.83 and over. Lipoprotein lipase activity per 10(6) cells showed a somewhat lower degree of reliability, interclass and intraclass coefficients being, respectively, 0.69 and 0.81. On the other hand, fat cell weight was positively correlated with lipoprotein lipase activity (r = 0.80), while no significant correlation was observed between basal lipogenesis and fat cell weight. Moreover, basal lipogenesis presented no significant correlation with lipoprotein lipase activity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of Herpes Virus Entry Mediator as a Factor Linked to Obesity

Herpes virus entry mediator (HVEM) is a member of the tumor necrosis factor (TNF) receptor superfamily (TNFRSF14), which serves as a receptor for herpes viruses and cytokines such as lymphotoxin‐α (LT‐α) and LIGHT (lymphotoxin‐like inducible protein that competes with glycoprotein D for herpes virus entry on T cells). We aimed to explore the associations of HVEM with human obesity. HVEM gene expression and protein levels were studied in total adipose tissue and in their fractions (isolated adipocytes and stromovascular cells (SVCs)) obtained from 81 subjects during elective surgical procedures. HVEM ?241GA and ?14AG gene polymorphisms were also studied and associated with obesity measures in 840 subjects. Visceral adipose tissue had significantly higher expression of HVEM than subcutaneous adipose tissue (P < 0.0001). Obese patients had significantly higher subcutaneous HVEM gene expression (P = 0.03) and protein levels (P = 0.01) than lean subjects. HVEM gene expression and protein levels were found in both isolated adipocytes and SVCs. These findings were confirmed in primary cultures from human preadipocytes, in which a significant increase in HVEM was observed during the differentiation process. HVEM ?241GA and ?14AG gene polymorphisms were associated with obesity, diastolic pressure, several inflammatory parameters (C‐reactive protein and interleukin 18 (IL‐18)), and circulating LIGHT concentrations. A sample of men with the G241A gene polymorphism also showed an increased serum titer of IgG antiherpes virus 1. These results provide evidences of an existing relationship between HVEM and obesity, which suggest that this TNF superfamily receptor could be involved in the pathogenesis of obesity and inflammation‐related activity.     

Caffeine reduces TNFα up-regulation in human adipose tissue primary culture

Adipose tissue secretions play an important role in the development of obesity-related pathologies such as diabetes. Through inflammatory cytokines production, adipose tissue stromavascular fraction cells (SVF), and essentially macrophages, promote adipocyte insulin resistance by a paracrine way. Since xanthine family compounds such as caffeine were shown to decrease inflammatory production by human blood cells, we investigated the possible effect of caffeine on Tumor Necrosis Factor alpha (TNFalpha) and Interleukin-6 (IL-6) expression by human adipose tissue primary culture. For that purpose, human subcutaneous adipose tissue obtained from healthy non-obese women (BMI: 26.7 +/- 2.2 kg/m2) after abdominal dermolipectomy, was split into explants and cultured for 6 hours with or without caffeine. Three different concentrations of caffeine were tested (0.5 microg/mL, 5 microg/mL and 50 microg/mL). After 6 hours of treatment, explants were subjected to collagenase digestion in order to isolate adipocytes and SVF cells. Then, TNFalpha and IL-6 mRNA were analysed by real-time PCR alternatively in adipocytes and SVF cells. In parallel, we checked gene expression of markers involved in adipocyte differenciation and in SVF cells inflammation and proliferation. Our findings show a strong and dose dependent down-regulation of TNF-alpha gene expression in both adipocyte and SVF cells whereas IL-6 was only down regulated in SVF cells. No effect of caffeine was noticed on the other genes studied. Thus, caffeine, by decreasing TNFalpha expression, could improve adipose tissue inflammation during obesity.     

Distribution of adenosine metabolising enzymes between adipocyte and stromal-vascular cells of adipose tissue

Rat adipose tissue was digested with collagenase and separated into adipocytes and stromal-vascular cells. The adipocytes accounted for 40% of the total adipose tissue adenosine deaminase activity, 32% of 5'-nucleotidase activity and 87% of adenosine kinase activity. This distribution suggests that adipocyte are the major cell type involved in adenosine utilization in adipose tissue. Furthermore, it suggests that the high sensitivity of isolated adipocytes to adenosine is representative of their sensitivity of isolated adipocytes to adenosine is representative of their sensitivity in vivo.     

Clearing-factor lipase in adipose tissue. Distinction of different states of the enzyme and the possible role of the fat cell in the maintenance of tissue activity

1. Incubation of intact epididymal adipose tissue from fed rats at 37 degrees in an albumin solution at pH7.4 in vitro results in rapid loss of clearing-factor lipase activity until a low activity, stable to prolonged incubation, is attained. The clearing-factor lipase activity of intact tissue from starved rats, which is initially much less than that of tissue from fed rats, is mainly stable to incubation at 37 degrees . 2. Much of the clearing-factor lipase activity of intact epididymal adipose tissue from fed rats is inactivated by collagenase. The enzyme activity of intact tissue from starved rats is not inactivated by collagenase. 3. The clearing-factor lipase activity of fat cells isolated from the epididymal adipose tissue of fed rats is stable to prolonged incubation at 37 degrees . It represents only a small proportion of the total activity of the intact tissue. In starved rats, the isolated fat cells contain a much higher proportion of the activity of the intact tissue. Their activity is also stable at 37 degrees . 4. Incubation of isolated fat cells in a serum-based medium leads to a progressive rise in clearing-factor lipase activity. Actinomycin increases the extent of this rise in activity. No rise in clearing-factor lipase activity occurs when stromal-vascular cells isolated from epididymal adipose tissue are incubated in the medium. 5. The findings indicate that less than 20% of the activity of intact adipose tissue from fed rats is retained when fat cells are isolated from the tissue by collagenase treatment. The activity that is lost could be that which normally functions in the uptake of triglyceride fatty acids by the tissue.     

Isolation,growth requirements,cloning, prostacyclin production and life-span of human adult endothelial cells in low serum culture medium

Summary Endothelial cells from autopsy and biopsy specimens from a variety of adult human vascular tissue were harvested by collagenase treatment and gentle swabbing of the lumenal surface. Nutrient medium MCDB 107 containing a partially purified brain-derived growth factor (5 μg/ml), epidermal growth factor (10 ng/ml) and only 2% (v/v) fetal bovine serum supported clonal and long-term serial culture (17.6 to 26.1 cumulative population doublings) of endothelial cells from vena cava, thoracic aorta and tibial arteries at a 70% rate of success. Cumulative doublings of the cell population from eight cultures were inversely proportional to age of donor of the vascular tissue from which cells were isolated. Heparin had an enhancing effect on cell growth that varied with cell strain. Prostacyclin production of human adult endothelial cell cultures was stimulated by aracidonate and thrombin by 17 to 20 and 2 to 3-fold respectively. Endogenous and stimulated rates of prostacyclin production by human adult endothelial cells were 2 to 3 times that of human adult smooth muscle cells and 20 to 30 times that of human fibroblasts. The work was supported by Public Health Service Grant AGO3275 and Grant No. 1718 from the Council for Tobacco Research. Editor's statement This paper provides an opportunity for relatively rapid, easy growth and cloning of endothelial cells from various human specimens which are more difficult to deal with than those obtained from an intact artery or intact umbilical vein. Russel Ross     

Isolation and characterization of microvessel endothelial cells from human mammary adipose tissue

Summary A method for the isolation and long-term culture of human microvessel endothelial cells from mammary adipose tissue (HuMMEC) obtained at breast reduction surgery has been developed. Pure cultures of HuMMEC were isolated by sequential digestion of the fat with collagenase and trypsin followed by specific selection of microvessel fragments withUlex europaeus agglutinin-1 coated magnetic beads (Dynabeads). The resulting cells formed contact-inhibited monolayers on gelatin and fibronectin substrates and capillary-like “tubes” on Matrigel; they also expressed von Willebrand factor, angiotensin-converting enzyme, and accumulated acetylated low density lipoprotein. Further immunofluorescence characterization revealed the presence of antigens for the endothelial cell specific monoclonal antibodies EN4 and H4-7/33. In addition, the origin of these cells was confirmed by the demonstration of the cell adhesion molecules, platelet endothelial cell adhesion molecule-1 (CD31), and endothelial leukocyte adhesion molecule-1 (ELAM-1/E-selectin) upon stimulation with tumor necrosis factor (TNF)α. HuMMEC were found to express-1 ELAM-1 at lower levels of TNFα (<10 ng/ml) than required by human umbilical vein endothelial cells. These cells should provide a useful in vitro model for studying various aspects of microvascular biology and pathology.     

Endothelial cell specific molecule-1--a newly identified protein in adipocytes.

Expression of the endothelial cell-specific molecule (ESM)-1 was originally identified in lung and kidney endothelial cells, where its expression is regulated by cytokines. In vitro, ESM-1 interferes with the molecular mechanisms of immune cell migration by binding to adhesion molecules. In this study, we have explored the expression of ESM-1 in isolated human adipocytes and in rat adipose tissue depots. Human primary adipocytes were cultivated after collagenase digestion and used for in vitro incubation studies. Adipocytes were also isolated from different fat depots of Sprague-Dawley rats. Gene expression was quantified by TaqMan RT-PCR using specific human and rat ESM-1 primers. The cellular localisation of ESM-1 was determined by confocal microscopy using a specific antibody. ESM-1 expression in human adipocytes was stimulated by phorbol ester, an activator of protein kinase C, and by retinoic acid, an activator of nuclear receptors. The maximum increase in gene expression was 3.2-fold after 72 h treatment with phorbol ester and 4.6-fold after 72 h treatment with retinoic acid. The highest expression was found in subcutaneous rat adipose tissue - two-fold compared to epididymal and six-fold compared to intrascapular brown adipose tissue. As obesity is related to systemic inflammation (examplified by increased circulating levels of C-reactive protein and interleukin-6), the formation of ESM-1 in adipocytes and its activation by protein kinase C may play a role in the regulation of inflammatory processes.