The influence of insulin, triiodothyronine (T3) and insulin-like growth factor-I (IGF-1) on the differentiation of preadipocytes in serum-free cultures of pig stromal-vascular cells

Adipose tissue stromal-vascular (S-V) cells were obtained from 1-d-old pigs by enzymatic digestion and then grown to confluence (1 to 4 d) in 10% fetal bovine serum. Cultures then were shifted to serum-free media for 7 d. One and 50 nM insulin with transferrin (5 micrograms/ml) significantly increased (P less than .05) the cytodifferentiation of preadipocytes in serum-free cultures of S-V cells compared with control cultures (no hormones). Fifty nanomolar and 1 microM insulin with transferrin increased the specific activity of glycerol-phosphate dehydrogenase (GPDH) and the soluble protein levels of S-V cultures compared with control cultures. Ten nanomolar insulin-like growth factor-1 (IGF-1) increased (P less than .05) GPDH specific activity, soluble protein and preadipocyte cytodifferentiation compared with control cultures. Triiodothyronine (T3) supplementation (2 to 10 nM) increased (P less than .05) GPDH specific activity and increased lipid droplet size in preadipocytes compared with control cultures (no T3 but with insulin and transferrin). Cytodifferentiation of preadipocytes and soluble protein levels were not enhanced by T3 supplementation. Furthermore, T3 did not influence any parameters when added to S-V cultures that did not contain insulin. These data demonstrate that physiological levels of insulin or IGF-I can stimulate porcine preadipocyte differentiation in the absence of other hormones or growth factors.     

Optimization of in vitro conditions for bovine subcutaneous and intramuscular preadipocyte differentiation

The objective of these experiments was to develop an in vitro cell culture system for differentiation of bovine preadipocytes, which will permit examination of differences in differentiation between intramuscular (i.m.) and subcutaneous (s.c.) bovine preadipocytes. Stromal-vascular cells from bovine i.m. and s.c. adipose depots were isolated and cultured. Clonally derived s.c. preadipocytes were used to determine the ability of insulin, bovine serum lipids, octanoate, acetic acid, dexamethasone (DEX), and troglitazone (TRO) to elicit differentiation of these cells when added to serum-free medium. Addition of 10 and 20 microL/mL of a commercially available serum lipids supplement to low-glucose Dulbecco's modified Eagle's medium containing 280 nM insulin increased glycerol-3-phosphate dehydrogenase (GPDH) activity (P < 0.01). Inclusion of 1.25 to 10 microM TRO to medium containing 280 nM insulin and 20 microL/ mL serum lipids supplement also increased GPDH activity (P < 0.001) compared with 0 microM TRO. The combination of 280 nM insulin, 1 mM octanoate, and 10 mM acetic acid, with 48 h exposure to 0.25 microM DEX caused morphological differentiation in a small number of cells but did not stimulate GPDH activity (P = 0.99). When used together, 280 nM insulin, 20 microL/mL of serum lipids supplement, 40 microM TRO, and 0.25 microM DEX stimulated differentiation compared with the aforementioned treatment (P < 0.001). Omission of TRO or insulin from this medium reduced GPDH activity by 68% (P < 0.001), whereas removal of DEX tended to reduce GPDH activity (P = 0.06). Preadipocytes from s.c. (n = 3) and i.m. (n = 2) adipose tissues of 3 steers were used to determine the effects of TRO on differentiation using the established conditions. Forty to sixty microM TRO enhanced differentiation compared with 0 microM TRO (P < 0.02) in both depots. No depot differences in response to TRO were detected (P = 0.32). These data demonstrate that bovine preadipocytes are capable of differentiation in response to combinations of insulin, serum lipids, DEX, and TRO. Although TRO enhanced differentiation of bovine preadipocytes, no differential effects of TRO on the differentiation of s.c. and i.m. cells were detected.     

Porcine preadipocyte proliferation and differentiation: a role for leptin?

The present study was designed to determine whether porcine leptin can alter the proliferation and differentiation of the porcine preadipocyte. The stromal vascular cell fraction of neonatal pig s.c. adipose tissue was isolated by collagenase digestion, filtration, and subsequent centrifugation. For differentiation studies, cells were seeded on six-well tissue culture plates and proliferated to confluency in 10% (vol/vol) fetal bovine serum (FBS) in Dulbecco's modified Eagle medium/F12 (DMEM/F12; 50:50). Cultures were differentiated using 2.5% pig serum (vol/vol) and recombinant porcine leptin at concentrations of 0 to 1,000 ng/mL alone or in combination with porcine insulin (100 nM), dexamethasone (1 microM), or IGF-1 (250 ng/mL). After 7 d of lipid filling, cultures were harvested for analysis of sn-glycerol 3 phosphate dehydrogenase (GPDH) and lipoprotein lipase (LPL). The GPDH and LPL activities are measures of preadipocyte differentiation. Data were corrected for protein content of the cultures. For proliferation experiments, 24 h after seeding cells with 10% FBS in DMEM/F12 in 25-cm2 tissue culture flasks, cells were switched to 5% FBS and supplemented with 0 to 1,000 ng of porcine leptin or 1,000 ng of murine leptin. Cell proliferation was measured by 3H-thymidine incorporation in preconfluent cultures over 24 h on d 4 of culture. At confluency, cells were switched to a medium to promote differentiation and lipid filling (2.5% pig serum, 100 nM insulin, 1 microM dexamethasone) for 7 d. Cells were harvested from the flasks and adipocytes were separated from stromal cells by Percoll gradient centrifugation. In a series of experiments, leptin alone or in combination with insulin, dexamethasone, or IGF-I did not affect differentiation as measured by the activity of GPDH and LPL. Leptin at any concentration did not inhibit differentiation induced by insulin, dexamethasone, or IGF-I; however, leptin at 1,000 ng/mL stimulated a 30% increase in preadipocyte proliferation (P = 0.007; n = 6) and a 27% increase in stromal cell proliferation (P < 0.001; n = 6). These results indicate that, at most, porcine leptin may contribute to the recruitment of new adipocytes within the adipose tissue.     

Responsiveness to adipogenic agents in stromal-vascular cultures derived from lean and preobese pig fetuses: an ontogeny study.

Primary cultures of stromal-vascular (S-V) cells from adipose tissue were used to evaluate characteristics of preadipocytes from lean and preobese fetuses at several ages (50, 75, and 110 d). In insulin-supplemented (1 microM) cultures (serum free) there was a significant age x fetal genotype interaction (P less than .01) for glycerol-phosphate dehydrogenase specific activity (GPDH); GPDH activity was genotype-dependent at 110 d (preobese greater than lean). The responses of S-V cultures (preadipocyte development) to 2% pig serum and to insulin (serum free) were similar. Main effects of genotype and age were significant (P less than .05) for protein levels in pig serum and insulin-treated cultures. There was a significant genotype x age (P less than .05) interaction for GPDH activity and protein levels in cultures treated with dexamethasone + 3-isobutyl-1-methylxanthine (DEX-IBMX). Treatment with DEX-IBMX induced more preadipocyte development in cultures from preobese fetuses than in cultures from lean fetuses at 110 d (P less than .05). The responsiveness of S-V cultures to DEX-IBMX (enhanced development) increased considerably between 50 and 75 d regardless of fetal genotype, but there was little response in cultures form 50-d fetuses. Preadipocyte development in lean and preobese fetuses diverged between 75 and 110 d, resulting in many more preadipocytes in preobese fetuses at 110 d. Therefore, S-V cells from preobese fetuses (late term) may be inherently more sensitive to adipogenic agents than S-V cells from lean fetuses.     

A comparison of thiazolidinedione-induced adipogenesis and myogenesis in stromal-vascular cells from subcutaneous adipose tissue or semitendinosus muscle of postnatal pigs

This study compared the adipogenic potential of porcine stromal-vascular (S-V) cells from semitendinosus muscles and s.c. adipose tissue using thiazolidinediones. Stromal-vascular cells were obtained from s.c. adipose tissue and both semitendinosus muscles from 5- to 7-d-old pigs after collagenase digestion. Preadipocyte recruitment was measured using immunohistological evaluation for AD-3, a preadipocyte antibody. Ciglitazone increased the number of preadipocytes in adipose tissue but not semitendinosus muscle S-V cell cultures, whereas 10 microM troglitazone increased preadipocyte abundance in both adipose and muscle S-V cultures by approximately 3-fold (P < 0.05). Increasing troglitazone doses did not further increase preadipocyte number. Increases in preadipocytes were paralleled by increases in CCAAT/enhancer-binding protein alpha (C/EBPalpha) and peroxisome proliferator-activated receptor gamma (PPARgamma) positive cells in adipose tissue S-V cultures, whereas PPARgamma-reactive but not C/EBPalpha-reactive cells were increased in muscle S-V cultures treated with 10 microM troglitazone. Additionally, troglitazone treatment did not increase lipid content in s.c. adipose tissue or muscle S-V cell cultures. Cells plated on laminin-precoated culture dishes were used to determine whether troglitazone influenced adipogenesis or myogenesis in cocultures from muscle S-V cells. There was no effect on the number of myotubes or the average number of nuclei per myotube, suggesting myogenesis was not impaired by troglitazone treatment. These results suggest that regulation of intramuscular adipogenesis differs from that of subcutaneous adipogenesis.     

The influence of dexamethasone and insulin on expression of CCAAT/enhancer binding protein isoforms during preadipocyte differentiation in porcine stromal-vascular cell cultures: evidence for very early expression of C/EBPalpha

Expression of CAAT/enhancer binding protein (C/EBP) isoforms was examined in primary cultures of adipose tissue stromal vascular (S-V) cells before and during preadipocyte differentiation. Immunocytochemistry showed that the proportions and numbers of C/EBPalpha-, C/EBPbeta-, and C/EBPdelta-reactive cells were maximized after seeding and plating from d 0 to 3 in fetal bovine serum (FBS). However, there were few preadipocytes (AD-3+) and fewer cells with lipid and the number of C/EBPalpha-reactive cells clearly exceeded the number of preadipocytes. Seeding and plating in dexamethasone (DEX) + FBS from d 0 to 3 markedly increased the proportions and numbers of preadipocytes and C/EBPalpha-reactive cells compared to seeding and plating in FBS, d 0 to 3. The number of C/EBPalpha- and C/EBPbeta-reactive cells and preadipocyte reactivity for C/EBPbeta decreased with insulin or DEX treatment, d 3 to 6, following FBS, d 0 to 3. However, insulin + DEX treatment, d 3 to 6, maintained the number of C/EBPalpha-reactive cells and either maintained or increased preadipocyte reactivity for C/EBPalpha and C/EBPbeta. DEX and DEX + insulin treatment induced recruitment of a similar number of preadipocytes, but preadipocytes were not reactive for C/EBPalpha and C/EBPbeta in DEX-treated cultures. The number of C/EBPdelta reactive cells did not change from d 3 to 6 and was not influenced by hormone treatment. After DEX + FBS, d 0 to 3, the high numbers of C/EBPalpha-reactive cells and preadipocytes were maintained by insulin treatment alone. Western blot analysis for C/EBPalpha confirmed the immunocytochemical results. Double staining demonstrated that expression of C/EBPalpha protein was maximized before or at the onset of lipid accretion, whereas expression of C/EBPbeta protein was correlated with lipid accretion. These results indicate that coupling or integration of preadipocyte recruitment with C/EBPalpha expression may be a critical step in glucocorticoid-induced adipogenesis.     

The effect of insulin on primary cultures of rat preadipocytes grown in fetal or postnatal pig serum

Stromal vascular cell cultures, prepared from the inguinal pads of 50-g Sprague Dawley rats, were exposed to media with 10% fetal pig serum which is inherently low in insulin, for the first 3 to 5 d of culture. Insulin was supplemented to media for periods of 2 to 6 d. In cultures treated (2 to 4 d) with 10(-9), to 10(-10) or 10(-11) M insulin, differentiated cells (lipid and esterase staining) appeared 1.5 to 2 times wider than differentiated cells in control cultures. At 10(-9) M insulin (4 to 5 d), in cultures grown in the presence of fetal pig serum the number of esterase reactive cells was increased twofold to threefold. The percentage of total cells that were esterase reactive was elevated 50 to 300% relative to control cultures. Insulin-treated preadipocytes were more reactive for lipoprotein lipase activity (histochemical assay) compared with reactivity of control cells. Quantitative analysis of percentage of light transmittance (Zeiss photometer) through stained cells indicated an increase (P less than .001) in lipoprotein lipase staining at 10(-9), 10(-11) and 10(-13) M insulin (2 d). The specific activity of glycerol phosphate dehydrogenase was elevated twofold to threefold (P less than .05) and soluble protein elevated 50 to 100% (P less than .05) in cultures treated (3 to 6 d) with 10(-9) M insulin. Decreasing the cell plating density (50%) in cultures grown in the presence of pig serum reduced the elevation in enzyme activity induced by insulin in preadipocyte cultures. Physiological levels of insulin enhanced lipogenic enzyme activity in preadipocytes and may enhance the conversion of stromal cells to preadipocytes.     

Expression of leptin mRNA and CCAAT-enhancer binding proteins in response to insulin deprivation during preadipocyte differentiation in primary cultures of porcine stromal-vascular cells

The aim of this study was to examine the correlation between CCAAT-enhancer binding proteins (C/EBPs) and leptin gene expression in response to insulin deprivation in preadipocytes and adipocytes. Adipose tissue from 7 d-old pigs was digested enzymatically and stromal-vascular (S-V) cells were seeded and plated for 3 d in fetal bovine serum (FBS) with dexamethasone (DEX) followed by 6 d (Days 3–9) in serum-free medium with insulin (850 nM or 10 nM), transferrin, and selenium. During FBS+DEX treatment (Days 0–3) a large number of preadipocytes develop with no lipid accretion. In contrast, preadipocyte number does not change with lipid accretion during insulin treatment (Days 3–9). Total RNA and cells were harvested from S-V cultures after periods with and without insulin after FBS+DEX. Northern-blotting and Western blot analysis were used to study leptin mRNA and C/EBP protein expression in cultures, respectively. Insulin deprivation from Days 3–4 reduced leptin mRNA and C/EBP- protein expression. Treatment with 850 nM or 10 nM insulin from Days 3–9 induced leptin mRNA and C/EBP- expression at a similar level. In cultures treated with 10 nM insulin from Days 3–7, leptin and C/EBP- expression were reduced markedly by insulin deprivation from Days 7–9, but were restored by insulin treatment for 6 hr before harvesting. The restoration of leptin expression by insulin was blocked by cycloheximide treatment. However, C/EBP-β protein levels did not change regardless of insulin deprivation. Insulin deprivation from Days 7–9 in cultures treated with 850 nM insulin from Days 3–7 did not influence C/EBP- or leptin mRNA expression, whereas C/EBP- and leptin expression were reduced after treating these cultures with 1.5 uM okadaic acid for 45 min before harvesting on Day 9. However, cycloheximide treatment for 6 hr before harvesting did not reduce leptin mRNA expression. These results suggest that 1) leptin expression is positively correlated with C/EBP- expression, and 2) the maintenance of leptin expression after insulin deprivation in 850 nM insulin-treated cultures on Day 9 may be associated with the presence of C/EBP- expression and/or activation.     

Meat Science and Muscle Biology Symposium: the influence of extracellular matrix on intramuscular and extramuscular adipogenesis

The extracellular matrix (ECM) and specific ECM components can have a major influence on cell growth, development, and phenotype. The influence of the ECM and ECM components on adipogenesis in vivo and in vitro will be reviewed in this paper. Engelbreth-Holm-Swarm substratum and laminin per se markedly increased attachment, spreading, and hypertrophy of preadipocytes in serum-free primary cultures of porcine adipose tissue stromal-vascular cells. Furthermore, primary cultures of stromal-vascular cells showed that preadipocytes express ECM components after preadipocyte recruitment. Staining for plant lectins, type IV collagen, and laminin in fetal pig adipose tissue demonstrates that adipocyte reactivity for laminin was strong throughout fetal development and was similar for developing adipocytes and vasculature. However, lectin binding and type IV collagen reactivity of blood vessels preceded that for adipocytes. Therefore, these studies indicated that the ECM and in particular laminin may play a critical role in morphological aspects of preadipocyte development. Specific inhibitors and modulators of collagen synthesis have been used to evaluate the role of collagens in the differentiation of bovine intramuscular preadipocytes (BIP) and other preadipocyte cell lines. Triglyceride accretion of BIP cells was inhibited by a general inhibitor of collagen biosynthesis, whereas specific inhibitors or modulators of type IV collagen inhibited 3T3-L1 cell differentiation. Further study revealed that compared with collagens types I to IV, type V and VI collagens have an important and active role in BIP adipogenesis. The growth of intramuscular bovine adipose tissue may be dependent on collagen newly synthesized and organized by the adipocytes per se. The role of extracellular or ECM proteolysis in regulating adipogenesis also will be reviewed in this paper. Many members of the matrix metalloproteinase (MMP) family are expressed by adipocytes, and specific inhibition of MMP-9 greatly reduces adipogenesis in vitro. Possibly, MMP and other proteases regulate turnover of key adipocyte ECM proteins that are involved in the regulation of preadipocyte proliferation and differentiation.     

Effects of lipid-related factors on adipocyte differentiation of bovine stromal-vascular cells in primary culture

The effects of several factors related to lipids on bovine adipocyte differentiation were investigated in primary culture. Adipocyte differentiation was assessed by development of glycerol-3-phosphate dehydrogenase (GPDH) activity and morphological observation. Addition of triglyceride mixture (Intralipid), caprylic acid and very low-, low- and high-density lipoproteins (VLDL, LDL and HDL) stimulated bovine preadipocyte differentiation in serum-free condition. Especially, VLDL strongly increased both cell protein contents and GPDH activity, suggesting that it stimulated both proliferation and differentiation of bovine preadipocytes. Under Intralipid-induced condition, differentiation of preadipocytes from subcutaneous adipose tissues was more evident than those from omental adipose tissues. However, such depot difference was not observed in medium supplemented with indomethacin, which is a peroxisome proliferator-activated receptor (PPAR) gamma agonist. This suggests that the differentiation capacity of bovine preadipocytes was different between depots and such difference is dependent on the ability to utilize lipids as endogenous PPARgamma ligands. Therefore, lipid metabolites have the stimulatory effects on bovine adipocyte differentiation in vitro, and lipoproteins, especially VLDL, may play an important role in development of bovine adipose tissues in vivo.     

Insulin-like growth factor 1 induction of differentiation of porcine preadipocytes

The role of insulin-like growth factor I (IGF-1) in the development of the porcine preadipocyte was studied. Primary cultures of stromal-vascular cells (containing preadipocytes) were derived from s.c. adipose tissue of pigs at 1 d of age by enzyme digestion and centrifugation. Cells were cultured for a total of 15 d. Cells were exposed to IGF-1 at concentrations of 0, 5, 25 or 50 ng/ml medium during one of four time periods: d 1-15, d 1-5, d 13-15, or 4 h on d 15 of culture. IGF-1 had a mitogenic effect on cells during the first three time periods as determined by coulter counting. IGF-1 induced the enzymatic differentiation of porcine preadipocytes following exposure for either the entire 15 d of culture or for only 48 h (d 13-15) after confluency had been attained (d 5). Histochemically, lipid accumulation over time paralleled changes in enzyme activity. Incubation of IGF-1 with the cell cultures during the logarithmic phase of growth (d 1-5) or for 4 h on d 15 did not affect enzyme activity. These data indicate that IGF-1 can induce the differentiation of porcine preadipocytes after the cells leave the logarithmic phase of growth through action on post-confluent events.     

Glucocorticoids and the differentiation of porcine preadipocytes

The function of glucocorticoids in the differentiation of porcine preadipocytes was examined. Stromal-vascular cell cultures (containing preadipocytes) derived from adipose tissue of the perirenal, ham and shoulder regions of neonatal pigs were incubated in the presence of hydrocortisone at 0 to 100 ng/ml medium. Perirenal cells did not respond to hydrocortisone with an increase in enzyme expression, nor did they demonstrate growth characteristics similar to those of cultures derived from the ham or shoulder. Cultures from the shoulder and ham regions demonstrated dose-responsive increases in enzymatic expression to hydrocortisone. Enzymatic responses by cultures derived from the ham region were lower than responses by cultures from the shoulder region as measured by changes in the activities of sn-glycerol-3-phosphate dehydrogenase and lipoprotein lipase. Addition of insulin to the medium did not produce a synergistic effect with glucocorticoid on differentiation as determined by these enzymatic parameters. However, [14C]glucose metabolism by the cells in culture was synergistically increased by insulin and glucocorticoid supplementation of the medium. The ability of hydrocortisone to induce differentiation of porcine preadipocytes in vitro suggests that the changes that occur in plasma glucocorticoid concentrations during late gestation may play an important role in the rapid development of s.c. adipose tissue in the fetal pig. Secondly, the differences in culture characteristics and hormone responses of cells derived from different locations of adipose tissue formation indicate that differences may exist in the regulation of the growth and development of preadipocytes from different anatomical locations.     

猪前脂肪细胞原代培养方法的建立

目的:摸索猪前脂肪细胞的原代培养方法,为研究猪脂肪发生的分子机制奠定基础.方法:取皮下脂肪,酶消化法分离细胞,用转铁蛋白、氢化可的松、胰岛素诱导分化,油红O染色鉴定.结果:在培养期间,细胞逐渐由梭形变为圆形,并逐渐增大,油红O染色为红色.结论:分离的细胞为未分化的前脂肪细胞,可用此方法培养的细胞进行脂肪发育过程中具体分...     

血清对猪前脂肪细胞分化过程中聚脂相关基因表达的影响

为了探讨血清对猪前脂肪细胞诱导分化的影响,筛选更优的诱导方法.采用胶原酶消化法分离猪皮下前脂肪细胞,用含50 nmol·L~(-1)胰岛素、100 nmol·L~(-1)地塞米松、0.25 mmol·L~(-1)3-异丁基-1-甲基黄嘌呤、100nmol·L~1罗格列酮及添加(对照组)或不添加(试验组)10%FBS的分化培养液1和2对前脂肪细胞进行诱导分化,借助实时定量RT-PCR方法检测了细胞分化过程中聚脂相关基因PPARα、C/EBPα、FASN、ACOX1、GPAT和ENPP2的表达模式.结果显示:血清对PPARγ和FABP4两基因的表达有极显著的上调作用(P<＜0.01),而对其他6个基因的表达有极显著的下调作用(P＜0.01).试验组中FASN、GPAT和ACOX13个基因诱导分化各时间点的综合表达景均极显著高于对照组(P＜0.01),3基因表达量变化趋势间均达到极显著相关(P＜0.01).试验组中PPARα、PPARγ、C/EBPα和ACOX1 4个基因的基因表达最变化趋势间均达到显著或极显著正相关.研究表明:前脂肪细胞分化过程中,细胞内脂肪酸的生物合成和β氧化均在发生,细胞内脂肪含量积聚的快慢取决于2个途径力量的对比;PPARα、PPARγ、C/EBPα和ACOX14个基因间存在极强的协同表达现象;在细胞内脂肪积聚快慢上,含血清的分化培养液1要优于不含血清的分化培养液2.     

Sera-controlled preadipocyte growth in culture: an ontogeny study with sera from lean and obese pigs

Genetically lean and obese swine were used to investigate the control of preadipocyte growth in culture by porcine serum. Sera were collected from fetuses from obese and lean strains at 70, 90 and 110 d of gestation. Postnatal serum samples were collected from both lines of pigs at 23 to 27 kg. Rat preadipocytes were isolated and grown in culture. Preadipocyte and stromal-vascular cell proliferation was greater in cultures grown in sera obtained postnatally than in cultures grown in sera from fetuses. Sera from lean and obese fetuses were equipotent in promoting cell proliferation. Glycerol-phosphate dehydrogenase (GPDH) activity was higher in cultures fed serum from obese pigs and fetuses than in cultures fed serum from lean pigs and fetuses. Cultures grown in serum from obese fetuses and pigs had soluble protein levels similar to cultures grown with serum from lean pigs and fetuses. These results demonstrate that serum from genetically obese swine, in the pre-obese (fetal) and obese (postnatal) state, caused increased adipogenic activity in adipocytes in culture.     

Porcine leptin alters insulin inhibition of lipolysis in porcine adipocytes in vitro

The present study determined whether porcine leptin can alter the lipolytic rate in porcine adipocytes produced in vitro. The stromal-vascular cell fraction of neonatal subcutaneous adipose tissue was isolated by collagenase digestion, filtration, and subsequent centrifugation. These stromal-vascular cells were seeded on 25-cm2 tissue culture flasks and proliferated to confluency in 10% fetal bovine serum in DMEM/F12 (50:50). Cultures were differentiated using 2% pig serum + 10 mM isobutyl methylxanthine + 1 microM dexamethasone for 48 h. This medium was replaced with 5% pig serum + 1 microM insulin to promote lipid filling of adipocytes for 7 d. Adipocyte-containing cultures were incubated overnight in serum-free medium and then used for experiments. Acute experiments assessed lipolysis in cultures exposed to porcine leptin (0 to 1,000 ng/mL medium) for 2 h. Chronic experiments used cultures incubated with 100 ng porcine leptin/mL of medium for 72 h prior to lipolysis measurements. Direct effects of leptin were examined by incubating cultures in DMEM/F12, 25 mM HEPES, 3% bovine serum albumin, 20 mU of adenosine deaminase/mL of medium in the presence of 0 to 1,000 ng of porcine leptin/mL of medium. Indirect effects of leptin were examined using the same incubation medium but also supplemented with 1 microM isoproterenol +/- 10 nM insulin in the presence of 0 to 1,000 ng of porcine leptin/mL of medium. Media glycerol concentration was measured at the end of 2-h incubations. Acute leptin exposure induced up to a 76% increase in lipolysis (P < 0.05) but had no effect on insulin's inhibition of lipolysis. Chronic exposure to leptin produced up to a 56% increase in lipolysis (P < 0.05) and reduced insulin's inhibition ofisoproterenol-stimulated lipolysis by up to 31% (P < 0.05). These data demonstrate leptin functions to promote the partitioning of energy away from lipid accretion within porcine adipose tissue by promoting lipolysis directly and indirectly by reducing insulin-mediated inhibition of lipolysis.     

Fetal hypophysectomy causes a decrease in preadipocyte growth and insulin like growth factor-1 in pigs

Fetal pigs in one uterine horn of each of five gilts were hypophysectomized (HX) in utero by electrical cauterization at 72-74 days of gestation and sera collected at 110 days of gestation. Sera from HX fetuses had lower levels of insulin-like growth factor-1 compared to control littermates (P less than .05). Sera were tested for their effects on primary cultures of stromal-vascular cells from adipose tissue. The soluble protein concentration/dish was lower when pig cells were cultured in sera from HX fetuses compared to sera from control fetuses (P less than .01). Sera from HX fetuses inadequately supported growth of stromal-vascular cells so subsequent experiments utilized pooled sera from normal and HX adult pigs. Sera from HX and control fetuses were mixed with sera from the two adult pools and tested for incorporation of tritiated thymidine into rat preadipocytes and the appearance of adipocytes (determined histochemically) in pig stromal-vascular cultures. In cultures fed sera from HX fetuses there was a lower (P less than .05) number of pig fat cells/culture and a lower level (P less than .06) of preadipocyte proliferation in rat cell cultures when compared to control fetal sera. Fetal pig serum contains factors (adipogenic) which promote the proliferation and differentiation of adipocytes in culture. Serum from HX fetuses has a lower level of adipogenic factors.     

Culture of porcine stromal-vascular cells in serum-free medium: differential action of various hormonal agents on adipose conversion

We developed a strictly controlled serum-free culture system and tested the effects of adipogenic and antiadipogenic agents on the proliferation and(or) adipose conversion of porcine stromal-vascular cells. To avoid any interference with serum components, stromal-vascular cells were isolated, plated, and grown in absence of serum. In these culture conditions, a very limited growth phase and the absence of cell confluence were observed. However, when compared with continuous culture in serum-containing medium, the serum-free conditions were significantly more adipogenic as assessed by increased lipid content and increased enzymatic activities for lipoprotein lipase, glycerol 3-phosphate dehydrogenase, and malic enzyme. In serum-free medium, physiological concentrations of insulin or IGF-I were sufficient to significantly increase the percentage of lipid-containing cells, whereas triiodothyronine (T3) and GH had no effect. Insulin, IGF-I, and, more moderately, T3 also accelerated the lipid filling in the lipid-containing cells. In the presence of insulin, stimulation by T3 or hydrocortisone alone had no effect on glycerol 3-phosphate dehydrogenase activity, whereas their concomitant addition significantly increased it. Chronic exposure to tumor necrosis factor-alpha dose-dependently stimulated cell proliferation but clearly inhibited differentiation. Epidermal growth factor, another known antiadipogenic agent, also significantly increased the proliferation of stromal-vascular cells, but, surprisingly, this was not correlated with inhibition of adipocyte differentiation. Indeed, epidermal growth factor treatment did not decrease lipid filling and significantly improved lipoprotein lipase and malic enzyme activities. Taken together, the results obtained in these strictly controlled serum-free culture conditions point out functions for insulin, IGF-I, hydrocortisone, and T3 during early and(or) later steps of porcine adipose conversion. In addition, this study reports a positive activity of epidermal growth factor on porcine adipocyte differentiation that is in clear contrast with previous works performed with rodent cells.