Increasing vimentin expression associated with differentiation of human and rat preadipocytes.

Alterations in the cytoskeletal apparatus constitute some of the earliest changes during assumption of an adipogenic phenotype. We examined three major cytoskeletal elements, beta-actin, alpha-tubulin and vimentin, during adipogenesis in euploid cells from human and rat adipose tissue. As reported with 3T3 sub-lines, mRNA level for beta-actin and alpha-tubulin were decreased upon differentiation. However, in contrast to reports with 3T3 cells, levels of vimentin were increased during differentiation. Furthermore, immunological analyses confirmed that there was no decrease in vimentin protein levels during adipogenic development. As well as highlighting a difference between 3T3 cell lines and preadipocytes isolated from fat depots, these studies indicate that the pattern of cytoskeletal gene expression undergoes complex changes early during preadipocyte differentiation.

Estrone formation from dehydroepiandrosterone in cultured human breast adipose stromal cells.

The metabolism of dehydroepiandrosterone (DHA) and androstenedione (A-dione) was studied in cultured human adipose stromal cells obtained from breast tissue of six premenopausal patients undergoing reduction mammoplasty. Cells were maintained in culture in the presence of 10% fetal bovine serum. Studies were carried out during the proliferative and confluent phases of culture with radiolabelled substrates (2 microCi, 10 nM). During the early phases of replication 7 alpha-hydroxydehydroepiandrosterone (7 alpha-OHDHA) was formed from DHA. As the cells reached confluence, the major metabolite of DHA in cells from all patients was A-dione indicating the presence of 3 beta-hydroxysteroid dehydrogenase/isomerase (3 beta-HSD). The conversion of DHA to A-dione was variable among patients when cells were confluent with 30-80% of substrate being metabolized to this product. Adipose stromal cells synthesized estrone (E1) from DHA once A-dione formation was established. Under basal conditions E1 was obtained in cells from three of the six patients examined with up to 36% substrate converted to this product. Dexamethasone (Dex 10(-7) M) stimulated E1 formation in cells from all subjects with up to 50% of substrate being converted. Parallel studies comparing the conversion of DHA with A-dione to E1 revealed that as the cells became confluent, E1 formation from both substrates was similar. The pattern of steroid metabolism was also examined in primary culture and in subculture. Passage 1 cells continued to form A-dione as a major metabolite of DHA, and did not revert to the pattern of metabolism found in primary cells during the early stages of replication, when 7 alpha-hydroxylation predominated. Human adipose stromal cells actively metabolize DHA, producing 7 alpha-OHDHA, A-dione and E1 as principal metabolites. Changes in the circulating levels of DHA may directly influence the formation of E1 in peripheral tissues. This source of E1 will be modulated by factors controlling 3 beta-HSD and aromatase activities.

Adipsin/acylation stimulating protein system in human adipocytes: regulation of triacylglycerol synthesis.

Through their capacity to store fatty acids as triacylglycerol molecules, adipocytes serve a vital physiologic role. This study presents further evidence that this process can be modulated in human adipocytes by the adipsin/acylation stimulating protein (ASP) pathway and suggests a novel function for the product of this system--ASP. The data demonstrate the following: (1) ASP stimulates triacylglycerol synthesis within adipocytes, and this occurs to a greater extent in differentiating than undifferentiated cells (242% +/- 32% vs 168% +/- 11%, p < 0.01, respectively, at an ASP concentration of 88 ng/mL; (2) ASP does not affect the Km for triacylglycerol synthesis but does substantially increase Vmax; (3) when ASP is generated in vitro through incubation of its precursor proteins under appropriate conditions, triacylglycerol synthesis increases to the same extent as when plasma-purified ASP is added to the medium; (4) human adipocytes contain mRNA for the specific serine protease adipsin and the two precursor proteins C3 and factor B required to interact for the production of ASP; and (5) the extent to which cultured differentiating adipocytes produce ASP is proportional to the degree to which they have accumulated triacylglycerol mass during differentiation (r2 = 0.7523, p < 0.0005). These findings provide the first evidence for the existence of the adipsin/ASP pathway in human adipocytes, and this may markedly enhance our understanding of the processes which regulate triacylglycerol clearance from plasma.

Long-chain fatty acids decrease lipoprotein lipase activity of cultured rat adipocyte precursors.

The effect of fatty acids on rat adipocyte precursor lipoprotein lipase (LPL) activity was examined. Cellular LPL activity in cultured perirenal precursors reached a maximum after 6 days. At day 6, addition of 10(-8) mol/L oleic acid to the culture medium for 6 hours resulted in a significant reduction of LPL activity. Exposing cultured precursors to 10(-4) mol/L oleic acid caused more than a 50% decrease of intracellular LPL activity measured in either acetone-ether or detergent extracts and more than a 60% decrease of heparin-releasable LPL activity. These reductions were evident within 2.5 hours of exposure to oleic acid, and exposure to oleic acid for as little as 15 minutes caused a subsequent decrease in LPL activity. LPL activity recovered 48 hours after removal of oleic acid from culture medium. Decreased LPL activity after oleic acid exposure was also noted in epididymal cells and in differentiated adipocyte precursors. The extent of decrease of LPL activity upon fatty acid exposure was dependent on the presence of the carboxyl group and was affected by acyl chain length. Although oleic acid did not affect protein synthesis estimated by [3H]-leucine incorporation, LPL mRNA levels were decreased following exposure of cells to oleic acid. Glycerol-3-phosphate dehydrogenase (G3PD) activity and mRNA levels were not affected by oleic acid exposure. Hence, fatty acids cause a dose-, acyl chain-, and carboxyl group-dependent specific decrease of heparin-releasable and intracellular LPL activities in cultured rat adipocyte precursors; this effect is associated with and is likely caused at least in part by a decrease in LPL mRNA levels.

Decreasing expression of a gene encoding a protein related to basic fibroblast growth factor during differentiation of human preadipocytes.

Pursuant to our findings that pituitary basic fibroblast growth factor (bFGF) stimulates the replication of preadipocytes and inhibits their differentiation, we have studied the changes in expression of a bFGF-related mRNA during differentiation. Human omental preadipocytes were grown in primary culture and induced to differentiate with chemically defined serum-free medium. The differentiation process was assessed by monitoring the rise of glycerophosphate dehydrogenase (GPDH) activity, while mRNA expression for a bFGF-related protein(s) and GPDH was examined by amplifying the respective target sequences by polymerase chain reaction. In the case of all cell strains, differentiated preadipocytes revealed much lower expression of bFGF-related mRNA than undifferentiated preadipocytes. Concurrently, the expression of the GPDH mRNA rose significantly. The finding that the expression of the bFGF-related protein is decreased appreciably during adipose differentiation is consonant with its proposed function to expand and maintain adipose cells in a relatively undifferentiated state.

Cellular and molecular factors in adipose tissue growth and obesity.

Heparin-binding growth factors related to basic fibroblast growth factor are major determinants of the cellular clonal composition of adipose tissue. By providing and maintaining varying complements of preadipocytes in different fat depots, these factors contribute to the varying sizes and functions of different regions, including the hypercellularity in appreciable obesity. Thus, differing levels and activities of the heparin-binding growth factors contribute to variations in depots within the same individual and between individuals, in lean and obese states. In contrast to regional differences in adiposity, which are accounted by factors resident in adipose tissue, we believe that obesity results from a generalized energy overload. According to our concept, there are genetic variations in cytoskeletal activity and thus differing quantities of energy are utilized for biomechanical processes. In a reciprocal relationship, the higher the cytoskeletal activity, the lesser the energy available for chemical energy storage, mainly in the form of triglyceride in adipocytes. At the extreme of "supermassive" obesity, a mutation in a gene related to a cytoskeletal protein would lead to appreciable dampening of cytoskeletal activity, with consequently the greatest quantity of energy remaining available for eventual triglyceride storage. Moreover, the new concept, for which we have have increasing experimental evidence, invokes a hypothalamic-efferent neural-cytoskeletal pathway, which would modulate the activity of the cytoskeleton.

Augmented production of heparin-binding mitogenic proteins by preadipocytes from massively obese persons.

Basic fibroblast growth factor (bFGF) stimulates the replication of preadipocytes and inhibits their differentiation. In this study we explored whether the same or related polypeptides were produced locally and acted by paracrine/autocrine mechanisms in adipose tissue. Omental preadipocytes from 7 lean and 10 massively obese (> 170% reference) subjects were grown to confluence in subculture. Total RNA was hybridized with a synthetic deoxynucleotide for human bFGF. In the case of all cell strains, there was expression of two major bFGF transcripts, 7.0 and 3.7 kb. Although there was considerable variation in the degree of expression, preadipocytes from massively obese subjects revealed much greater expression than did cells from the lean (P < 0.001). In studies of conditioned media prepared with preadipocytes, the presence of proteins belonging to the heparin-binding (fibroblast) growth factor family was indicated by Western blot analysis, for a 66-kD protein with anti-(1-24)bFGF, and for a 32-kD protein with anti-(40-63)bFGF antibodies. The relative quantity of the 66-kD protein correlated with body mass index at r = 0.72. bFGF-related proteins probably function normally to maintain an appropriate complement of adipocyte precursors. The augmented expression of heparin-binding growth factors in preadipocytes from some massively obese people probably contributes to the excessive cellularity of their fat depots.

Accumulation of starch in Chlamydomonas reinhardtii flagellar mutants.

Paralyzed flagellar mutants pf-1, pf-2, pf-7, and pf-18 of the green alga Chlamydomonas reinhardtii (Dangeard) were shown to store a significantly greater amount of starch than the motile wild type 137c+. The increase in starch storage was significant relative to protein, chlorophyll, and cell number. Analysis of average cell size revealed that the paralyzed mutants were larger than the wild type. This increase in storage molecule accumulation supports an inverse relationship between chemical energy storage and energy utilization for biomechanical/motile cellular functions. Chlamydomonas reinhardtii provides a useful model for studies of the role of cytoskeletal activity in the energy relationship and balance of organisms.

The C/EBP-binding region and adjacent sites regulate expression of the adipose P2 gene in human preadipocytes.

Human preadipocytes contain nuclear factors that specifically bind to the AE-1 sequence, previously demonstrated as an enhancer element in the regulation of adipose P2 gene expression during 3T3 adipose differentiation. By transient transfection and in vivo competition experiments, the trans-acting factors were found to bind either to the C/EBP recognition site in the AE-1 sequence and act as a negative regulator or to the adjacent site (termed 3' AE-1) and act as a positive regulator of adipose P2 gene activity in human preadipocytes.

Relationships between the hypothalamus and adipose tissue mass.

The brain, particularly certain nuclei of the hypothalamus and their neural connections, have a major influence on energy balance, through effects on both food intake and energy expenditure. As summarized in Table 1, there are indeed extensive interactions between the hypothalamus and adipose tissue, the predominate site of storage of chemical energy. Structural, and possibly functional, abnormalities of the neural structures facilitate the development of obesity. This review has described four components of the interactive system. Two of these components are still partly conjectural; while we have increasing experimental support, the hypothalamic-pituitary-adipose axis and the hypothalamic-efferent neural-cytoskeletal pathway are the subject of continuing intense investigation. More complete knowledge of the pathophysiology of obesity will, in turn, facilitate prevention and treatment of corpulence, as well as such frequent associations as non-insulin dependent diabetes mellitus.

Purification and partial characterization of a mitogenic protein released from preadipocytes of massively obese subjects.

A protein released into the culture medium by omental preadipocytes of massively obese persons, which stimulates the replication of rat perirenal preadipocytes, has been purified to a high degree. By gel filtration chromatography, the molecular mass of the mitogenic protein was approximately 66,000 daltons (Da), while on sodium dodecyl sulfate - polyacrylamide gel electrophoresis, two subunits were obtained, relative masses (Mr) of approximately 31,000 and approximately 35,000. The isoelectric point of the approximately 66,000 Da entity was 5.6 +/- 0.2. By specific radioreceptor assay, the purified protein was related to epidermal growth factor and transforming growth factor alpha. It was not related to insulin-like growth factors I and II by radioimmunoassay and radioreceptor assay. We propose that the approximately 66,000 Mr protein, and other mitogenic proteins released by preadipocytes from massively obese persons, act through paracrine-autocrine mechanisms and may play a role in the development of the hyperplasia of enlarged fat cells characteristic of massive corpulence.

Inhibition of rat perirenal preadipocyte differentiation.

The process of adipose differentiation uniquely endows fat cells to accrue triacylglycerols under conditions of nutrient energy surfeit and to release fatty acids during energy deprivation. The object of this investigation was to study influences on this process in perirenal preadipocytes, grown in primary culture or first subculture and derived from male Sprague-Dawley rats, 180-200 g. Supplementation of the culture medium with 1-methyl-3-isobutylxanthine, corticosterone, and insulin induced differentiation in practically all perirenal preadipocytes, as indicated morphologically and by rising glycerophosphate dehydrogenase activity. Appreciable differentiation was induced even in the absence of methylisobutylxanthine. Transforming growth factor beta (1-1000 pM), cachectin (tumour necrosis factor alpha) (1-1000 pM), and basic fibroblast growth factor (0.063-63 nM) inhibited adipose differentiation significantly, almost completely at the higher concentrations. Direct inhibition, rather than a persisting mitogenic effect of fibroblast growth factor, was confirmed using demecolcine (Colcemid). The fact that transforming growth factor beta and cachectin inhibit differentiation in preadipocytes from postpubertal rats suggests that this effect probably also occurs in vivo, thus diverting energy from adipose depots in certain neoplastic and inflammatory states. We propose that the anterior pituitary, through fibroblast growth factor(s), modulates the pool of preadipocytes and other mesenchymal cells. The mitogenic effect would be complemented by a concerted function, inhibition of adipose differentiation, resulting in the retention of a greater number of potentially replicative cells. Then, depending on the subject's nutritional and endocrine status, extrapituitary factors would regulate the specific process of differentiation.

Abnormalities of adipose cells in massive obesity.

Adipose cells grown in sub-culture are useful to elucidate genetic factors in obesity. Most omental adipose cell strains from 140 massively obese (greater than 170 percent of reference body weight) subjects replicated, in successive sub-cultures, to a significantly higher degree than cells from lean or moderately obese persons. The difference was due to a greater number of rapidly dividing clones. Adipose cells from the massively obese related into the culture medium proteins, native Mr 20,000-65,000, mitogenic on rat preadipocytes. Mitogenic activity of the medium was much less evident with cells from the lean. In the case of several cell strains, culture with 17-beta-estradiol increased the mitogenic activity of the medium. Omental adipose tissue of the massive obese also contained a greater number of adipose cell clones susceptible to differentiation. Hybrids of adipose cells from the massively obese fused with murine renal adenocarcinoma cells (RAG) revealed more prominent differentiation than hybrids comprised of adipose cells from the lean. Further, only those comprised of adipose cells from the obese could recapitulate differentiation in sub-cultures. These findings in culture probably reflect major heritable factors that facilitate the development of massive obesity in humans.

17-beta-estradiol increases mitogenic activity of medium from cultured preadipocytes of massively obese persons.

Having reported that omental preadipocytes from massively obese persons release into the culture medium proteins mitogenic for preadipocytes, this study aimed to determine whether estrogens contribute to the production of these factors. Sub-cultured omental preadipocytes from 13 massively obese women were grown in the presence or absence of 17-beta-estradiol, and during the last 24 h the conditioned medium was prepared in the absence of serum. Media from cells of 8 of 13 subjects contained significantly higher mitogenic activity when grown in the presence of 17-beta-estradiol. 17-Alpha-estradiol was not effective. The bioassay system involved rat perirenal preadipocytes, since these have been well characterized. Partial purification by gel filtration chromatography indicated that the estrogen-dependent factors had Mr greater than 250,000 and approximately 30,000. Thus, estrogens might contribute to the development of massive obesity in genetically susceptible subjects by promoting the production of paracrine/autocrine principles by adipose cells.

Genetic control of organ-reactive autoantibody production in mice by obesity (ob) diabetes (db) genes.

Inbred strains of mice exhibited genetic and sex-dependent differences in spontaneous production of organ-reactive autoantibodies detected by indirect immunofluorescence. Antitestis autoreactivity was found primarily in sera from C57BL/6J (B6) mice, whereas antigastric autoreactivity was common to both CBA/J and 129/J strains. Autoantibodies against islet cell cytoplasmic antigens (ICAs) were uniquely expressed by C57BL/KsJ (BKs) males. Introduction of the diabetes (db) mutation into these various inbred-strain backgrounds induced expression of ICA, with stronger induction observed in males. The stress imposed by the db or obesity (ob) mutation induced ICA in BKs mice at a higher frequency than in B6 mice; this differential sensitivity was somehow related to a gene linked to the H-2 complex because BKs.B6 H-2b congenic mice resembled B6 mice. The db3J mutation increased the expression of these autoantibodies in 129/J mice, which, like B6, were H-2b and therefore presumably possessed the same H-2-linked inducibility allele as BKs. Cytotoxic autoantibodies against islet cell surface antigens were only observed in C3HeB/FeJ db/db males, and their presence was correlated with beta-cell necrosis. It is concluded that db and/or ob genes appear to play an important role in the production of autoantibodies to islet cells, and sex-linked factor(s) may modify the phenotypic expression of the autoantibodies.

Exaggerated triglyceride accretion in human preadipocyte-murine renal line hybrids composed of cells from massively obese subjects.

To learn about adipose differentiation of precursors from postnatal adipose tissue of lean and massively obese subjects, human omental adipocyte precursor-murine renal adenocarcinoma cell (RAG) hybrids were formed by fusion with polyethylene glycol, and cultured selectively with 50 microM ouabain in hypoxanthine aminopterin thymidine (HAT) medium. Under conditions in which the parent cells did not differentiate, a number of hybrids, which were cloned, revealed morphologic and biochemical evidence of differentiation. In addition to activation of human genes within the common nucleus of the hybrids, murine cytoplasmic activators are probably also involved because heterocaryons (fused cells with two interspecific nuclei) revealed the same phenomenon. Hybrids composed of precursors from massively obese subjects disclosed more frequent and prominent differentiation. Since these hybrids, in contrast to those from the lean, recapitulate this phenomenon in subcultures, they provide the potential system for mapping the human gene(s) responsible for adipose differentiation and its exaggeration in massive obesity.

Excessive growth of cultured beta cells from an adult patient with beta cell hyperplasia.

We have studied a 25-year-old female with frequent, severe hypoglycemic episodes. Concurrent with low serum glucose levels, the concentrations of C-peptide and insulin were markedly elevated. Tests for sulfonylurea hypoglycemic agents were negative. Special tests did not disclose any neoplasm. Biopsy of the pancreatic tail revealed islet cell hyperplasia and adenomatosis. About two-thirds of the pancreas was resected, resulting in correction of all metabolic abnormalities. Specific fluorescein-labeled anti-insulin antibodies revealed staining in 60-80% of the cultured cells isolated from the patient's pancreas, while electron microscopy disclosed insulin storage granules in about 80%. By comparison, for each of these findings, the range for cells from normal pancreases was 30-50%. In contrast to these control cells, cells from the patient grew about 2 and 2.6 times more rapidly during the first two cell cycles, and the growth persisted through four cycles. The greater and more enduring growth of the patient's cells in culture must have been at least partly independent of circulating factors. Paracrine/autocrine principles from the beta cells or other islet cells may have been responsible.

Possible mechanisms in the pathogenesis of virus-induced diabetes mellitus.

Insulin-dependent diabetes mellitus results from destruction of pancreatic beta cells. Viruses and autoimmunity have been implicated as possible causes of beta cell destruction in genetically predisposed individuals. The evidence for viruses comes largely from experiments in animals, but several studies in humans point to viruses as triggers in the pathogenesis of diabetes in some cases. In animal models, at least 4 different possible mechanisms for virus-induced diabetes have been proposed. The first mechanism is direct cytolytic infection of pancreatic beta cells. One group of viruses, including encephalomyocarditis virus, Mengovirus 2T, and Coxsackie B viruses, can directly infect and destroy pancreatic beta cells independent of autoimmune processes. The second mechanism is triggering of autoimmune responses. In contrast to the encephalomyocarditis virus-induced diabetes, reovirus type 1 and rubella virus seem to be somehow associated with autoimmunity in the genesis of a diabetes-like syndrome in a certain strain of suckling mice and hamsters, respectively. The third mechanism is cumulative environmental insults. The cumulative environmental insults with viruses and beta cell toxic chemicals can result in diabetes in genetically predisposed non-human primates and certain inbred strains of mice. The fourth mechanism is persistent infection. A certain virus, such as lymphocytic choriomeningitis virus, persistently infects murine pancreatic beta cells and produces hyperglycemia. The evidence that viruses cause diabetes in humans is more circumstantial.(ABSTRACT TRUNCATED AT 250 WORDS)