Development under the control of insulin of lipogenic enzymes,lipoprotein lipase,isoproterenol and glucagon sensitivity in differentiating rat preadipocytes in primary culture

In preadipose cellular fractions (I, II and III) isolated by density gradient centrifugation from the inguinal tissue of young rats, we followed the activity of fatty acid synthetase, ATP citrate lyase and lipoprotein lipase during differentiation in culture. 1.5 nM insulin when added at confluence markedly induced the activity of ATP citrate lyase and fatty acid synthetase in the cells derived from the lighter fractions (I and II). The magnitude of this response was 25–50-fold the initial value 15 days after plating. In the cells of the heaviest fraction (III) both enzymes exhibited low activity which was slightly stimulated by the presence of insulin, VLDL and heparin. In contrast, the activity of lipoprotein lipase appeared before confluence in cells from all three fractions and peaked at day 6 after plating. This early emergence was independent of the addition of insulin to the medium. However, insulin slightly enhanced the peak activity in post-confluent cells. The development of cAMP production in response to isoproterenol (100 μM) and to glucagon (0.3 μM) was determined in the cells of fraction II in the same culture conditions. The responsiveness to isoproterenol was present very early in these cells and rose rapidly during the exponential growth phase, reaching a peak value at day 8 after plating. In contrast, the development of glucagon sensitivity occurred only during late differentiation. The stimulatory effect of glucagon was enhanced when VLDL and heparin were added with insulin to the medium.     

Hormonal regulation of postnatal chicken preadipocyte differentiation in vitro

This study was designed to develop a culture system from the stromal-vascular fraction of chicken adipose tissue that can be used to characterize hormones that promote preadipocyte differentiation. Abdominal adipose tissue was excised from 2 to 4-week-old male broilers (Gallus domesticus) by sterile dissection. The stromal-vascular cell fraction from the adipose tissue was isolated by collagenase digestion, filtration, and subsequent centrifugation. These preadipocytes were seeded in six well culture plates and proliferated to confluency in 10% fetal bovine serum in DMEM/F12 (50:50) medium. At confluency, experiments were initiated to determine hormonal requirements for differentiation. Insulin (100 nM) stimulated expression of citrate lyase and sn-glycerol-3-phosphate dehydrogenase relative to lactate dehydrogenase in the presence of 2.5% chicken serum (P<0.05), but not with 10% chicken serum (P>0.05). Triiodothyronine (T(3), 1 nM) and insulin-like growth factor 1 (100 ng/ml) had no effect on differentiation. Dexamethasone (Dex, 1 microM) stimulated differentiation in 2.5 or 10% chicken serum (P<0.05). Insulin, Dex and 2.5% chicken serum stimulated enzymatic differentiation to the extent of 10% chicken serum, but heparin (10 U/ml) addition, in combination with insulin and Dex was necessary to stimulate lipid filling of adipocytes.     

Glucocorticoids induce a drastic inhibition of proliferation and stimulate differentiation of adult rat fat cell precursors

The effects of physiological glucocorticoids such as cortisol and corticosterone, as well as dexamethasone, on proliferation and differentiation of rat fat cell precursors kept in primary culture were analyzed. In serum-containing medium (10%), glucocorticoids markedly decreased cell proliferation, either on subconfluent or on confluent cultures. This effect was independent of the presence of insulin. In contrast, acute amplification of adipose conversion was observed mainly when glucocorticoids and insulin were added simultaneously. Morphological quantification of lipid-containing cells confirmed acceleration of the maturation process, and an early and specific reorganization of the cytoskeleton was detected at the ultrastructural level. In the presence of insulin, glucocorticoids also enhanced the main marker enzymes, lipoprotein lipase, and glycerol phosphate dehydrogenase. Glucocorticoid effects on precursor proliferation and differentiation were clearly dose-dependent, dexamethasone being 10 times more potent than cortisol and corticosterone. Similar results were obtained in serum-free medium, as well as in preadipocyte cultures derived from different fat deposits. This study demonstrates that in addition to an acute inhibition of precursor growth, glucocorticoids exert a clear stimulation of adipose conversion, which depends mainly on the presence of insulin and the glucocorticoid concentration.     

Studies of lipoprotein lipase during the adipose conversion of 3T3 cells.

Lipoprotein lipase activity is negligible in exponentially growing 3T3-L1 cells and 3T3-F442A cells, but develops in both lines when they reach a confluent state and undergo adipose conversion. 3T3-C2 cells, which undergo adipose conversion with extremely low frequency, do not develop the enzyme. The lipase activity of 3T3-L1 and 3T3-F442A is greatly enhanced by insulin and increases 80–180 fold during the adipose conversion. The lipase has the following characteristics in common with lipoprotein lipase from adipose and other tissues: it is dependent upon serum, is inhibited by 0.5–1.0 M sodium chloride, is recovered from acetone powders, has an alkaline pH optimum and is released from the cells by heparin. Like the lipoprotein lipase of tissue adipose cells, the enzyme of 3T3-L1 decays in the presence of cycloheximide with a half-time of about 25 min at 37°C.The ability of 3T3-F442A and 3T3-L1 to take up triglyceride from the medium depends almost completely upon lipoprotein lipase. They incorporate the fatty acids of a large fraction of a triglyceride emulsion added to the medium, and this utilization is stimulated by heparin. Very little of the glycerol portion of the triglyceride is incorporated. 3T3-C2, which lacks lipoprotein lipase, utilizes very little of either the fatty acid or the glycerol portion of triglyceride.The relevance of external lipid or lipoprotein to both the adipose conversion and the appearance of lipoprotein lipase was tested using confluent cultures in medium depleted of these components. In the presence of serum whose lipoproteins have been removed by flotation, lines 3T3-F442A and 3T3-L1 undergo adipose conversion as completely as in the presence of untreated serum, and lipoprotein lipase activity appears at essentially the same rate. In medium whose serum supplement has been extracted with acetone:ethanol, 3T3-F442A cells undergo adipose conversion to nearly the same extent as in untreated serum, and develop nearly the same increase in lipoprotein lipase activity.Unless even very low concentrations of lipids or lipoprotein are saturating it can be concluded that the adipose conversion does not depend upon external lipids or lipoproteins for its induction; rather the differentiation program is built into the cell type and comes into operation when growth is arrested even in their absence. The source of fatty acids utilized for triglyceride synthesis, however, may be affected by the amount of lipid provided to the cells.     

Differentiation of newborn rat preadipocytes in culture: effects of insulin and dexamethasone

A preadipocyte cell population isolated from the inguinal tissue of 3-day-old rats converts at confluence into mature adipocytes when cultured with insulin (10(-9) M). Insulin is necessary only from Day 4 postplating. If the addition of insulin is further delayed, the proportion of cells which will undergo adipose conversion decreases. A loss of the differentiation competence is also observed when the cells are allowed to proliferate (seeding at a low density in a serum containing medium). A preexposure of the primary cells to dexamethasone during the insulin-insensitive period (Days 0-4) accelerates the subsequent "insulin-dependent" adipose conversion. In order to produce its effect, dexamethasone needs only to be present for 4 h on Day 2 postplating. The effect of dexamethasone is probably due neither to inhibition of cell proliferation nor to induction of the cell content of insulin receptors. The evolution of G3PDH enzyme activity as well as of G3PDH protein and mRNA was used as an indicator of the differentiation process. The enzyme accumulates to a low extent during culture in the absence of insulin. When insulin is present, the enzyme level is dramatically increased (maximum on Day 11). Dexamethasone pretreatment (Days 0-4, or 4 h on Day 2) accelerated the G3PDH enzyme activity increase as well as protein and mRNA accumulation. This was also true in cells maintained in insulin-free medium; however, in this case, the increase in the enzyme activity was limited to the first 8 days of culture and full differentiation did not take place. We conclude that: (1) the rat preadipocytes are committed to differentiate, requiring insulin as a sufficient physiological stimulus; (2) the differentiation program is progressively lost after greater than 4 days of culture without insulin and more rapidly if the cells are allowed to undergo divisions; and (3) dexamethasone accelerates the insulin-dependent adipose conversion but alone does not ensure the complete differentiation process.     

Tunicamycin inhibits the differentiation of ST 13 fibroblasts to adipocytes with suppression of the insulin binding activity

ST 13 cells are a clonal line of murine fibroblasts that are capable of differentiating into adipocyte-like cells $\text{in}\text{vitro}$. When the cells were maintained as a confluent monolayer, they began to accumulate lipid droplets and to exhibit a rapid increase of insulin binding activity. Tunicamycin, a specific inhibitor of dolichol-mediated protein glycosylation, blocked this adipose conversion without affecting cell growth and total protein synthesis. The inhibitory effect of tunicamycin was dose-dependent and reversible. Enhancement of the incorporation of [¹⁴C]acetate into triglyceride fraction accompanying the adipose conversion was completely inhibited by tunicamycin, whereas the incorporation into phospholipid fraction was only partially affected. The insulin binding activity increased about 10-fold during differentiation, but was completely suppressed in tunicamycin-treated cells.     

Differentiation of rabbit adipocyte precursor cells in a serum-free medium

Summary A serum-free, hormone-supplemented medium containing insulin, transferrin, and triiodothyronine (ITT medium), able to support differentiation of rat adipose precursor cells, has been used to study the regulation of the development of adipocytes in the rabbit. Adipose conversion was assessed by the appearance of glycerol-3-phosphate dehydrogenase activity. Stromal-vascular cells from rabbit perirenal adipose tissue differentiated to a very low extent or not at all in ITT medium. Supplementation of ITT medium with growth hormone or fibroblast growth factor did not increase the proportion of differentiated cells. In contrast, rabbit stromal-vascular cells were able to differentiate in ITT medium supplemented with glucocorticoids (dexamethasone, corticosterone) whereas sex steroids (β-estradiol, testosterone, progesterone) did not affect the differentiation process. In the presence of both dexamethasone and insulin, 20 to 50% of rabbit stromal-vascular cells differentiated into adipocytes within 2 wk of culture. The stimulatory actions of dexamethasone or insulin were dose-dependent. Insulin-like growth Factor-I (IGF-I), did not replace insulin under our culture conditions and had only a slight effect when added along with dexamethasone (100 nM) and insulin (1.7 nM). The results suggest that glucocorticoids, in association with insulin, may play an important role in the development of adipocytes from rabbit precursor cells. This work was supported by grant 4388 from the Institut National de la Recherche Agronomique, France.     

Adipose conversion of 3T3-L1 cells in a serum-free culture system depends on epidermal growth factor, insulin-like growth factor I, corticosterone, and cyclic AMP.

A culture system for 3T3-L1 preadipocytes based on a serum-free chemically defined medium containing fetuin, transferrin, and pantothenate is described. In this system, adipose conversion depends on the following conditions. 1) In the presence of high insulin concentrations (1 microM), addition of corticosterone together with 1-methyl-3-isobutylxanthine (MIX) for not more than the first 4 days after confluence to the culture medium induces maximal adipose conversion within 12-14 days. MIX may be replaced by forskolin or permeable analogues of cAMP, indicating that its effect is due to elevated cellular cAMP levels. 2) At low insulin concentrations (1 nM), adipose conversion is reduced. Growth hormone or insulin-like growth factor I together with epidermal growth factor have to be present as a medium supplement together with corticosterone and MIX to get maximal adipose conversion. 3) The induction of adipose conversion by corticosterone and MIX in the presence of either high insulin concentrations or insulin-like growth factor I together with epidermal growth factor is accompanied by post-confluent mitoses. Inhibitors of DNA replication markedly reduce adipose conversion. Fibroblast growth factor and platelet-derived growth factor, although acting as potent mitogens on 3T3-L1 cells, do not support adipose conversion induced by corticosterone and MIX.     

Differentiation of newborn rat adipocyte precursors in defined serum-free medium

Summary Newborn rat adipocyte precursors, isolated from inguinal fat pads of 2 day-old NBR rats proliferate and undergo adipose differentiation in defined medium in the absence of serum when cultivated on polylysine coated dishes in DME-F12 medium supplemented with fibronectin, insulin, transferrin and FGF. After 7 days in culture in these conditions, 90% of the cells have undergone differentiation as measured by the increase of G3PDH specific activity and by the accumulation of triglycerides in their cytoplasm. In contrast, the cells cultivated in the presence of 10% fetal bovine serum, have a limited ability to differentiate. These results indicate that newborn rat adipocyte precursors from inguinal fat pads do not require the presence of an undefined adipogenic factor in order to differentiate in culture. In contrast, proliferation and differentiation are dependent on the presence of insulin in the culture medium. Moreover, the data presented in this paper show that the rat adipocyte precursor culture represents a rapid and reproducible system for investigating the processes of adipose tissue development and for studying the negative and positive regulators of the adipose differentiation in a controlled environment. This work was supported by grants from the Juvenile Diabetes Foundation, File #185221 and from the National Institutes of Health 1 PO1 CA37589. Editor’s Statement This paper extends to primary cultures the serum-free methods previously applied to studies of adipocyte differentiation in established lines. The observation that serum can block differentiation in this system suggests the existence of previously unrecognized circulating plasma or platelet factors affecting adipocyte differentiation, and the model developed provides an assay for the identification of these factors.     

Protein Kinase C Inhibitors Enhance Differentiation of Rat Adipocyte Precursor Cells in Serum-Free Culture

The involvement of protein kinase C in differentiation of rat adipocyte precursor cells in serum-free culture was evaluated by using various protein kinase inhibitors. Induction of adipose conversion, which was maximal after 10 days of culture in the presence of 5 μg/ml insulin, 10 μg/ml transferrin, and 200 pM triiodothyronine, was inhibited by the addition of protein kinase C inhibitors, H-7 and staurosporine, in a dose dependent fashion with the maximal effect at 10 μM and 10 nM, respectively. Inhibition of adipocyte differentiation by 12-O-tetradecanoylphorbol 13-acetate (10⁻⁸M), an activator of protein kinase C, was reversed by a concomitant addition of either 10 μM H-7 or 10 nM staurosporine. HA1004, a potent inhibitor of cAMP- and cGMP-dependent protein kinases, with minimal inhibitory activity on protein kinase C, did not affect adipose conversion. Furthermore, H-89, another isoquinoline derivative with a selective inhibitory action on cAMP-dependent protein kinase, was without effect on cellular differentiation. These results indicate that the potentiation of adipogenesis by H-7 and staurosporine is mediated by suppression of protein kinase C and that protein kinase C is involved in adipocyte differentiation in an inhibitory fashion.     

A novel technique to propagate primary human preadipocytes without loss of differentiation capacity

Objective: The study of human preadipocytes is hampered by the limited availability of adipose tissue and low yield of cell preparation. Proliferation of preadipocytes using common protocols, including fetal bovine serum (FBS), results in a markedly reduced differentiation capacity. Therefore, we were interested in developing an improved culture system that allows the proliferation of human preadipocytes without loss of differentiation capacity. Research Methods and Procedures: Adipose tissue samples were taken from subjects undergoing elective abdominal surgery. Cells were seeded at various densities and cultured using different formulations of proliferation media including factors such as fibroblast growth factor‐2 (basic fibroblast growth factor), epidermal growth factor, insulin, and FBS either alone or in combination. Cells were counted and induced to differentiate after confluence. After complete differentiation, cells were harvested, and glycerol‐3‐phosphate dehydrogenase activity was measured. Cells were subcultured for up to five passages. Results: The proliferation medium with 4 growth factors (PM4), consisting of 2.5% FBS, 10 ng/mL epidermal growth factor, 1 ng/mL basic fibroblast growth factor, and 8.7 µM insulin, resulted in lower doubling times at all seeding densities tested (0.05 × 10⁴ to 1.5 × 10⁴) compared with medium supplemented with 10% FBS. In contrast to cells in FBS medium, cells grown with PM4 medium retained full differentiation rate (glycerol‐3‐phosphate dehydrogenase activity, 493 ± 215 vs. 41 ± 17 mU/mg, p < 0.01). Differentiation capacity was fully retained at least for up to three passages in PM4 medium. Discussion: The use of PM4 medium results in substantial proliferation of human preadipocytes with preserved differentiation capacity. This novel technique represents a valuable tool for the study of human adipose tissue development and function starting from small samples.     

Transformation of Ob17 cells promotes proliferation and differentiation of Ob17 preadipocytes via distinct extracellular intermediates

Conditioned serum-free medium of Ob17 cells transformed by the middle-T-only gene of polyoma virus (Ob17MT cells) is able to support growth and adipose conversion of the parental Ob17 cells. Conditioned media from 3T3-F442A cells (untransformed preadipocyte clonal line) and MTT4 cells (middle-T-transformed non-preadipocyte clonal line) are inactive. The serum-free conditioned medium of Ob17MT cells is also active on growth and adipose conversion of 3T3-F442A cells. The morphological differentiation of Ob17 cells is accompanied by the expression of early (lipoprotein lipase, LPL) and late (glycerol-3-phosphate dehydrogenase, GPDH) biochemical markers of adipose conversion. Bio-Gel P-60 chromatography and SDS-PAGE have allowed characterization of a mitogenic fraction of apparent MW approximately equal to 28 Kd distinct from an adipogenic fraction of apparent MW less than 10 Kd. This adipogenic fraction is only required for the acquisition of the GPDH activity and is therefore active on terminal differentiation.     

Commitment of adipocyte differentiation in 3T3 cells is inhibited by retinoic acid, and the expression of lipogenic enzymes is modulated through cytoskeleton stabilization

Retinoic acid (RA), at 1-10 microM, inhibited adipose conversion of 3T3-F442A cells as determined by the activities of lipogenic enzymes, glycerophosphate dehydrogenase (GPD) and malic enzyme. This inhibition was reversible by RA removal, but the increase in lipogenic enzyme activities was considerably delayed in a dose-dependent manner. The onset of the two lipogenic enzyme activities could be regulated somewhat independently, suggesting that expression of the two enzymes is subject to noncoordinated regulation. The RA-inhibited cells had a more flattened and elongated shape, suggesting cytoskeletal changes. Cytochalasin B (CB) did not prevent RA inhibition and did not promote adipose conversion in cultures supplemented with nonadipogenic medium. Reversion of inhibition was accelerated if cells were cultured for 3 days with adipogenic medium containing CB. The drug promoted an early increase in lipogenic enzyme activities. On the other hand, cells cultured on fibronectin-coated dishes, a condition that stabilizes actin cytoskeleton, do not undergo adipocyte differentiation. However, we show here that cells cultured on fibronectin and changed to nonadipogenic medium containing insulin underwent adipose conversion; in contrast, cells treated with RA and then supplemented with nonadipogenic medium containing insulin, but without the retinoid, did not undergo differentiation. We conclude that RA blocks adipose conversion probably before commitment to differentiation, and modulates lipogenic enzyme expression in a noncoordinated manner through changes in cytoskeletal elements, whereas fibronectin blocks phenotype expression in differentiating cells.     

Conversion to adipocytes of a clonal bone marrow preadipocyte line (H-1/A) and fatty acid composition of the resultant adipocytes

Conversion to adipocytes and fatty acid composition were investigated in a clonal bone marrow preadipocyte line (H-1/A). The growing cells exhibited a fibroblastic appearance. After the cessation of growth, triacylglyceride (TG) synthesis in the cells increased as they incorporated precursor from the growth medium and became adipocytes. Hydrocortisone and insulin accelerated the TG synthesis in H-1/A cells in a dose-dependent manner when they were cultured in the growth medium containing 10% horse serum. The rate of conversion to adipocytes was reduced as the concentration of horse serum was decreased, and this reduction was not influenced by the addition of insulin and/or hydrocortisone. These results suggest that conversion to adipocytes of H-1/A cells is primarily dependent on some component(s) of the serum. Conversion to adipocytes of the cells may involve a process of differentiation since the conversion was completely inhibited when the cells were cultured in the presence of bromodeoxyuridine. Fatty acid composition was significantly different between adipose H-1/A cells and adipocytes derived from other marrow preadipocyte line MC3T3-G2/PA6 cells. Unsaturated fatty acids accounted for 76% of the fatty acid composition of adipose H-1/A cells; in contrast, saturated fatty acids constituted 65% of the fatty acid composition of the adipose MC3T3-G2/PA6 cells. These results suggest that there is a heterogeneity of preadipocytes in bone marrow. These two preadipocyte lines thus provide a useful tool for the study of marrow adipocytes and can also be used to analyze the hematopoietic microenvironment through studies of the effect of these cells on hematopoietic cell proliferation.     

An association between glutamine synthetase activity and adipocyte differentiation in cultured 3T3-L1 cells

Confluent 3T3-L1 Swiss mouse fibroblasts acquired morphological and biochemical characteristics of adipocytes when maintained in medium containing 10% calf serum and added insulin. Identical cultures maintained in the absence of added insulin did not differentiate into adipocytes. Incubation of confluent cultures for 48 h with 0.25 μm dexamethasone and 0.5 mm 1-methyl-3-isobutylxanthine yielded subsequent adipocyte differentiation when the culture medium contained 10% fetal calf serum. In contrast, differentiation did not occur when similarly treated cultures were maintained in medium containing 10% calf serum. The increase in glutamine synthetase which occurred during adipocyte differentiation was closely associated with an increased rate of triglyceride synthesis from acetate, with increased protein, and with increases in the activities of glycerol-3-P dehydrogenase and glucose-6-P dehydrogenase. Glutamine synthetase activity remained undetectable in insulin-treated confluent 3T3-C2 cells maintained under conditions which yielded high glutamine synthetase activity in 3T3-L1 cells. (3T3-C2 cells did not differentiate into adipocytes.) Glutamine accumulated in the culture medium of 3T3-L1 adipocytes, but it did not accumulate in the medium from identically treated 3T3-C2 cells. A half-maximal increase in glutamine synthetase specific activity occurred at a culture medium insulin concentration of 10 ng/ml. Neither adipocyte differentiation nor the rise in glutamine synthetase activity were substantially altered by maintaining confluent cultures in medium lacking added glutamine. Incubation of confluent 3T3-L1 cultures with 3 mml-methionine sulfone, a reversible inhibitor of glutamine synthetase, increased by two-fold both the activity and the cellular content of glutamine synthetase. Incubation of confluent 3T3-L1 cultures with 4 mml-glutamine and l-methionine-dl-sulfoximine, an irreversible inhibitor of glutamine synthetase activity, decreased glutamine synthetase activity to less than 5% of the activity in control cultures; however, neither cellular content of the enzyme nor synthesis rate of the enzyme were substantially altered. In the presence of added glutamine, neither methionine sulfone nor methionine sulfoximine had a significant effect on phenotypic adipocyte conversion. By contrast, when confluent cultures were incubated with methionine sulfoximine and no added glutamine, glutamine synthetase remained absent and there was no evidence of adipocyte conversion. Our data indicate (1) that added insulin is required for adipocyte differentiation of 3T3-L1 cells maintained in medium containing calf serum, (2) that glutamine synthetase activity increases during adipocyte conversion regardless of the culture conditions employed to achieve differentiation, and (3) that glutamine synthetase activity may be required for adipocyte differentiation when cultures are maintained in medium lacking added glutamine.     

Effects of dexamethasone on multiplication and differentiation of rat adipose precursor cells

The effects of dexamethasone (DEX) on adipose precursor cells from rat adipose tissue were studied in primary culture. When added from the beginning of culture in media containing untreated fetal calf serum (SM), serum treated with charcoal to remove steroid hormones (CSM), or serum-free medium (SFM), DEX inhibited cellular growth. Lipoprotein lipase (LPL) as well as glycerophosphate dehydrogenase (GPDH) activities, markers of cellular differentiation, were also inhibited, except in CSM where LPL was stimulated. When added after cellular confluence, however, DEX had opposite effects and now stimulated cellular differentiation. This effect was highly dependent on insulin. These studies demonstrate that DEX affects adipose precursor cells in several ways, depending on the type of culture medium, the time period of exposure, and the presence of insulin.     

Ultrastructural analysis of the in vitro differentiation of female rat preadipocytes

In an attempt to characterize the preadipocytes of the adipose tissue of female rat, we studied by electron microscopy the differentiation of the cells into mature adipocytes in in vitro cultures. The preadipocytes arose from the stroma-vascular fraction of perirenal and perigenital adipose tissue. Culture of the preadipocytes in an enriched medium consisting of Dulbecco's medium supplemented with 10% fetal calf serum, antibiotics, rat triglycerides (0.5%), insulin (290 nM) and Tween 80 (0.1 mg/ml) induced their adipose conversion. The morphology of preadipocytes changed progressively. They accumulated fat granules, droplets and finally globules, which fused together. The cell organelles featured qualitative and quantitative modifications. The nucleus migrated with most mitochondria and a part of the Golgi system towards the cell periphery; the rough endoplasmic reticulum, dilated at the initial stage of differentiation became less and less conspicuous; the perinuclear Golgi system was dispersed between lipid droplets during fat accumulation; thick bundles of microfilaments, localized beneath the plasma membrane disappeared; large lipid droplets were surrounded by a network of microfilaments; many microvesicles and some "rosettes" typical of mature adipocytes could be observed. Nevertheless, the ultrastructural criteria did not allow to clearly discriminate the undifferentiated cells: early preadipocytes (without lipid droplets), adipoblasts and fibroblasts, all of these being probably present in the culture system.     

Requirement and role of arachidonic acid in the differentiation of pre-adipose cells.

The terminal adipose differentiation of Ob1771 cells, characterized by glycerol-3-phosphate dehydrogenase activity and triacylglycerol accumulation, was studied in serum-free hormone-supplemented medium containing growth hormone, tri-iodothyronine, insulin, transferrin and fetuin. Arachidonic acid was able to substitute for a crude adipogenic fraction isolated from fetal bovine serum but not for growth hormone or tri-iodothyronine. Arachidonic acid was also able to increase in a rapid and dramatic manner cyclic AMP production; moreover it was able to amplify the adipose conversion promoted by other agents elevating cyclic AMP concentrations and to induce inositol phospholipid breakdown. Both phorbol 12-myristate 13-acetate, a protein kinase C activator and ionomycin, a Ca2+-mobilizing agent, showed potent synergy with agents elevating cyclic AMP concentrations for the promotion of adipose conversion, whereas 8-bromo cyclic GMP and 4 alpha-phorbol 12,13-dibutyrate were ineffective. The triggering of both the cyclic AMP and inositol phospholipid pathways was accompanied by a single round of cell division, and within a few days all the cells became differentiated. Similar results were obtained, after exposure to arachidonic acid, with preadipose 3T3-F442A cells and with rat adipose precursor cells in primary culture. The availability of arachidonic acid from intracellular stores and/or of exogenous origin should play a major role for the onset of critical mitoses leading to terminal differentiation in pre-adipose cells.     

Human Adipose Cells In Vitro Are Either Refractory or Responsive to Insulin,Reflecting Host Metabolic State

While intercellular communication processes are frequently characterized by switch-like transitions, the endocrine system, including the adipose tissue response to insulin, has been characterized by graded responses. Yet here individual cells from adipose tissue biopsies are best described by a switch-like transition between the basal and insulin-stimulated states for the trafficking of the glucose transporter GLUT4. Two statistically-defined populations best describe the observed cellular heterogeneity, representing the fractions of refractive and responsive adipose cells. Furthermore, subjects exhibiting high systemic insulin sensitivity indices (SI) have high fractions of responsive adipose cells in vitro, while subjects exhibiting decreasing SI have increasing fractions of refractory cells in vitro. Thus, a two-component model best describes the relationship between cellular refractory fraction and subject SI. Since isolated cells exhibit these different response characteristics in the presence of constant culture conditions and milieu, we suggest that a physiological switching mechanism at the adipose cellular level ultimately drives systemic SI.