Intracellular pH in adipocytes: effects of free fatty acid diffusion across the plasma membrane, lipolytic agonists, and insulin.

The main function of white adipose tissue is to store nutrient energy in the form of triglycerides. The mechanism by which free fatty acids (FFA) move into and out of the adipocyte has not been resolved. We show here that changes in intracellular pH (pH1) in adipocytes correlate with the movement of FFA across cellular membranes as predicted by the Kamp and Hamilton model of passive diffusion of FFA. Exposure of fat cells to lipolytic agents or external FFA results is a rapid intracellular acidification that is reversed by metabolism of the FFA or its removal by albumin. In contrast, insulin causes an alkalinization of the cell, consistent with its main function to promote esterification. Inhibition of Na+/H+ exchange in adipocytes does not prevent the changes in pHi caused by FFA, lipolytic agents, or insulin. A fatty acid dimer, which diffuses into the cell but is not metabolized, causes an irreversible acidification. Taken together, the data suggest that changes in pHi occur in adipocytes in response to the passive diffusion of un-ionized FFA (flip-flop) into and out of the cell and in response to their metabolism and production within the cell. These changes in pHi may, in turn, modulate hormonal signaling and metabolism with significant impact on cell function.

The adipocyte specific transcription factor C/EBPalpha modulates human ob gene expression.

The ob gene product, leptin, apparently exclusively expressed in adipose tissue, is a signaling factor regulating body weight homeostasis and energy balance. ob gene expression is increased in obese rodents and regulated by feeding, insulin, and glucocorticoids, which supports the concept that ob gene expression is under hormonal control, which is expected for a key factor controlling body weight homeostasis and energy balance. In humans, ob mRNA expression is increased in gross obesity; however, the effects of the above factors on human ob expression are unknown. We describe the structure of the human ob gene and initial functional analysis of its promoter. The human ob gene's three exons cover approximately 15 kb of genomic DNA. The entire coding region is contained in exons 2 and 3, which are separated by a 2-kb intron. The first small 30-bp untranslated exon is located >10.5 kb upstream of the initiator ATG codon. Three kilobases of DNA upstream of the transcription start site has been cloned and characterized. Only 217 bp of 5' sequence are required for basal adipose tissue-specific expression of the ob gene as well as enhanced expression by C/EBPalpha. Mutation of the single C/EBPalpha site in this region abolished inducibility of the promoter by C/EBPalpha in cotransfection assays. The gene structure will facilitate our analysis of ob mutations in human obesity, whereas knowledge of sequence elements and factors regulating ob gene expression should be of major importance in the prevention and treatment of obesity.

Role of the regulatory subunit of bovine pyruvate dehydrogenase phosphatase.

Bovine pyruvate dehydrogenase phosphatase (PDP) is a Mg2+-dependent and Ca2+-stimulated heterodimer that is a member of the protein phosphatase 2C family and is localized to mitochondria. Insight into the function of the regulatory subunit of PDP (PDPr) has been gained. It decreases the sensitivity of the catalytic subunit of PDP (PDPc) to Mg2+. The apparent Km of PDPc for Mg2+ is increased about 5-fold, from about 0.35 mM to 1.6 mM. The polyamine spermine increases the sensitivity of PDP but not PDPc to Mg2+, apparently by interacting with PDPr. PDPc but not PDP can use the phosphopeptide RRAT(P)VA as a substrate. These observations are interpreted to indicate that PDPr blocks or distorts the active site of PDPc and that spermine produces a conformational change in PDPr that reverses its inhibitory effect. These findings suggest that PDPr may be involved in the insulin-induced activation of the mitochondrial PDP in adipose tissue, which is characterized by a decrease in its apparent Km for Mg2+.

Obese gene expression: reduction by fasting and stimulation by insulin and glucose in lean mice, and persistent elevation in acquired (diet-induced) and genetic (yellow agouti) obesity.

Mutations in the obese (ob) gene lead to obesity. This gene has been recently cloned, but the factors regulating its expression have not been elucidated. To address the regulation of the ob gene with regard to body weight and nutritional factors, Northern blot analysis was used to assess ob mRNA in adipose tissue from mice [lean, obese due to diet, or genetically (yellow agouti) obese] under different nutritional conditions. ob mRNA was elevated in both forms of obesity, compared to lean controls, correlated with elevations in plasma insulin and body weight, but not plasma glucose. In lean C57BL/6J mice, but not in mice with diet-induced obesity, ob mRNA decreased after a 48-hr fast. Similarly, in lean C57BL/6J controls, but not in obese yellow mice, i.p. glucose injection significantly increased ob mRNA. For up to 30 min after glucose injection, ob mRNA in lean mice significantly correlated with plasma glucose, but not with plasma insulin. In a separate study with only lean mice, ob mRNA was inhibited >90% by fasting, and elevated approximately 2-fold 30 min after i.p. injection of either glucose or insulin. These results suggest that in lean animals glucose and insulin enhance ob gene expression. In contrast to our results in lean mice, in obese animals ob mRNA is elevated and relatively insensitive to nutritional state, possibly due to chronic exposure to elevated plasma insulin and/or glucose.

HLH106, a Drosophila transcription factor with similarity to the vertebrate sterol responsive element binding protein.

We cloned a Drosophila homolog to the sterol responsive element binding proteins (SREBPs). In vertebrates, the SREBPs are regulated by a mechanism that involves cleavage of the protein that normally residues in the cellular membranes and translocation of the released transcription factor into the nucleus. Regulation of the Drosophila factor HLH106 apparently follows the same mechanism, and we find the full-length gene product in the membrane fraction and a shorter cross-reacting form in the nuclear fraction. This nuclear form, which may correspond to proteolytically activated HLH106, is abundant in the blood cell line mbn-2. The general domain structure of HLH106 is very similar to that in SREBP. HLH106 is expressed throughout development, and it is present at high levels in Drosophila cell lines. In contrast to the rat homolog, HLH106 transcripts are not more abundant in adipose tissue than in other tissues.

Transcriptional activation of the mouse obese (ob) gene by CCAAT/enhancer binding protein alpha.

Like other adipocyte genes that are transcriptionally activated by CCAAT/enhancer binding protein alpha (C/EBP alpha) during preadipocyte differentiation, expression of the mouse obese (ob) gene is immediately preceded by the expression of C/EBP alpha. While the 5' flanking region of the mouse ob gene contains several consensus C/EBP binding sites, only one of these sites appears to be functional. DNase I cleavage inhibition patterns (footprinting) of the ob gene promoter revealed that recombinant C/EBP alpha, as well as a nuclear factor present in fully differentiated 3T3-L1 adipocytes, but present at a much lower level in preadipocytes, protects the same region between nucleotides -58 and -42 relative to the transcriptional start site. Electrophoretic mobility-shift analysis using nuclear extracts from adipose tissue or 3T3-L1 adipocytes and an oligonucleotide probe corresponding to a consensus C/EBP binding site at nucleotides -55 to -47 generated a specific protein-oligonucleotide complex that was supershifted by antibody against C/EBP alpha. Probes corresponding to two upstream consensus C/EBP binding sites failed to generate protein-oligonucleotide complexes. Cotransfection of a C/EBP alpha expression vector into 3T3-L1 cells with a series of 5' truncated ob gene promoter constructs activated reporter gene expression with all constructs containing the proximal C/EBP binding site (nucleotides -55 to -47). Mutation of this site blocked transactivation by C/EBP alpha. Taken together, these findings implicate C/EBP alpha as a transcriptional activator of the ob gene promoter and identify the functional C/EBP binding site in the promoter.

Identification, sequence, and expression of caveolin-2 defines a caveolin gene family.

Caveolin, a 21- to 24-kDa integral membrane protein, is a principal component of caveolae membranes. Caveolin interacts directly with heterotrimeric guanine nucleotide binding proteins (G proteins) and can functionally regulate their activity. Here, an approximately 20-kDa caveolin-related protein, caveolin-2, was identified through microsequencing of adipocyte-derived caveolin-enriched membranes; caveolin was retermed caveolin-1. Caveolins 1 and 2 are similar in most respects. mRNAs for both caveolin-1 and caveolin-2 are most abundantly expressed in white adipose tissue and are induced during adipocyte differentiation. Caveolin-2 colocalizes with caveolin-1, indicating that caveolin-2 also localizes to caveolae. However, caveolin-1 and caveolin-2 differ in their functional interactions with heterotrimeric G proteins, possibly explaining why caveolin-1 and -2 are coexpressed within a single cell.

Transdifferentiation of myoblasts by the adipogenic transcription factors PPAR gamma and C/EBP alpha.

Skeletal muscle and adipose tissue development often has a reciprocal relationship in vivo, particularly in myodystrophic states. We have investigated whether determined myoblasts with no inherent adipogenic potential can be induced to transdifferentiate into mature adipocytes by the ectopic expression of two adipogenic transcription factors, PPAR gamma and C/EBP alpha. When cultured under optimal conditions for muscle differentiation, murine G8 myoblasts expressing PPAR gamma and C/EBP alpha show markedly reduced levels of the myogenic basic helix-loop-helix proteins MyoD, myogenin, MRF4, and myf5 and are completely unable to differentiate into myotubes. Under conditions permissive for adipogenesis including a PPAR activator, these cells differentiate into mature adipocytes that express molecular markers characteristic of this lineage. Our results demonstrate that a developmental switch between these two related but highly specialized cell types can be controlled by the expression of key adipogenic transcription factors. These factors have an ability to inhibit myogenesis that is temporally and functionally separate from their ability to stimulate adipogenesis.

Normal plasma lipoproteins and fertility in gene-targeted mice homozygous for a disruption in the gene encoding very low density lipoprotein receptor.

The very low density lipoprotein (VLDL) receptor is a recently cloned member of the low density lipoprotein (LDL) receptor family that mediates the binding and uptake of VLDL when overexpressed in animal cells. Its sequence is 94% identical in humans and rabbits and 84% identical in humans and chickens, implying a conserved function. Its high level expression in muscle and adipose tissue suggests a role in VLDL triacylglycerol delivery. Mutations in the chicken homologue cause female sterility, owing to impaired VLDL and vitellogenin uptake during egg yolk formation. We used homologous recombination in mouse embryonic stem cells to produce homozygous knockout mice that lack immunodetectable VLDL receptors. Homozygous mice of both sexes were viable and normally fertile. Plasma levels of cholesterol, triacylglycerol, and lipoproteins were normal when the mice were fed normal, high-carbohydrate, or high-fat diets. The sole abnormality detected was a modest decrease in body weight, body mass index, and adipose tissue mass as determined by the weights of epididymal fat pads. We conclude that the VLDL receptor is not required for VLDL clearance from plasma or for ovulation in mice.

Increased expression in adipocytes of ob RNA in mice with lesions of the hypothalamus and with mutations at the db locus.

The gene product of the recently cloned mouse obese gene (ob) is important in regulating adipose tissue mass. ob RNA is expressed specifically by mouse adipocytes in vivo in each of several different fat cell depots, including brown fat. ob RNA is also expressed in cultured 3T3-442A preadipocyte cells that have been induced to differentiate. Mice with lesions of the hypothalamus, as well as mice mutant at the db locus, express a 20-fold higher level of ob RNA in adipose tissue. These data suggest that both the db gene and the hypothalamus are downstream of the ob gene in the pathway that regulates adipose tissue mass and are consistent with previous experiments suggesting that the db locus encodes the ob receptor. In db/db and lesioned mice, quantitative differences in expression level of ob RNA correlated with adipocyte lipid content. The molecules that regulate expression level of the ob gene in adipocytes probably are important in determining body weight, as are the molecules that mediate the effects of ob at its site of action.

Identification of a nonneuronal isoform of synaptotagmin.

Synaptotagmins, which have been found exclusively in neuroendocrine or exocrine tissues, have been implicated in the regulation of secretory vesicle fusion with the plasma membrane. The present paper describes a synaptotagmin isoform (synaptotagmin-5) which exhibits 49% amino acid identity to synaptotagmin-1 and -2. Synaptotagmin-5 mRNA is expressed in rat kidney, adipose tissue, lung, and heart, as well as at higher levels in brain and PC12 cells. Antiserum specific for the synaptotagmin-5 isoform recognizes a protein of about 50 kDa which is about 6-fold more abundant in brain synaptic vesicles than in whole brain membranes.

High fat diet-induced hyperglycemia: prevention by low level expression of a glucose transporter (GLUT4) minigene in transgenic mice.

High-fat intake leading to obesity contributes to the development of non-insulin-dependent diabetes mellitus (NIDDM, type 2). Similarly, mice fed a high-fat (safflower oil) diet develop defective glycemic control, hyperglycemia, and obesity. To assess the effect of a modest increase in the expression of GLUT4 (the insulin-responsive glucose transporter) on impaired glycemic control caused by fat feeding, transgenic mice harboring a GLUT4 minigene were fed a high-fat diet. Low-level tissue-specific (heart, skeletal muscle, and adipose tissue) expression of the GLUT4 minigene in transgenic mice prevented the impairment of glycemic control and accompanying hyperglycemia, but not obesity, caused by fat feeding. Thus, a small increase (< or = 2-fold) in the tissue level of GLUT4 prevents a primary symptom of the diabetic state in a mouse model, suggesting a possible target for intervention in the treatment of NIDDM.

Efeitos de dois modelos experimentais de dietas hipercalóricas sobre parâmetros comportamentais e biológicos em ratos da linhagem Wistar

O objetivo deste estudo foi investigar os efeitos de dois modelos experimentais de dietas hipercalóricas em comportamentos de ansiedade, processos de aprendizagem e memória e alterações metabólicas. Os animais foram divididos em seis grupos experimentais, de acordo com a condição nutricional. 1) Controle (C); 2) Dieta de Cafeteria (DC); 3) Dieta Hiperlipídica (DH); 4) Controle AIN-93 (C/AIN-93); 5) Dieta de Cafeteria AIN-93 (DC/AIN-93), e 6) Dieta Hiperlipídica AIN-93 (DH/AIN-93). Posteriormente, os grupos foram subdivididos em dois grupos independentes, conforme a tarefa à qual foram submetidos. Pesagens foram realizadas semanalmente até os 98 dias de vida; foram verificados os pesos do fígado, do coração e o peso de tecido adiposo retroperitoneal e epididimal e foram realizadas dosagens de glicose, triglicérides, TGO e TGP no soro e gordura total, colesterol total e triglicérides no fígado. Os testes utilizados: Labirinto em T Elevado (LTE), Caixa Claro/Escuro e Labirinto Aquático de Morris (LAM). Os resultados de peso corporal, os dados comportamentais do LAM, do LTE e os dados de peso dos tecidos extraídos no dia do sacrifício e as análises bioquímicas foram submetidos a uma Análise de Variância (ANOVA). Quando apropriado, foi utilizado o teste de comparações múltiplas de Newman-Keuls (p< 0,05). Os dados comportamentais do teste claro/escuro foram submetidos ao teste t-Student (p< 0,05). Animais tratados com dieta hiperlipídica apresentaram maiores medidas de peso e ganho de peso comparados aos animais controle e dieta de cafeteria, tratados com pellet e com dieta AIN-93. Animais DH1, DC1, DH1 AIN-93, DH2 AIN-93 e DH2 apresentaram maior peso no dia do sacrifício. Animais DH1, DH1 AIN-93, DH2 e DH2 AIN-93 apresentaram maior acúmulo dos tecidos adiposos retroperitoneal e epididimal. Animais DH1 AIN-93 e DC2 AIN-93 apresentaram maiores níveis de glicose. Animais C2, DH2 e DC2 apresentaram maiores níveis de triglicérides. Animais DH1 e C1 apresentaram menores valores de TGO. Animais C2 e C2 AIN-93 apresentaram maiores níveis de TGO. Animais C1, DH1, C2 e DH2 apresentaram maiores níveis de TGP. Animais DH1 AIN-93, DH1, DH2 e DH2 AIN-93 apresentaram maiores valores de gordura total no fígado. Animais DH1 AIN-93 e DH2 apresentaram maiores níveis de colesterol no fígado. Animais DH1, DC1, DH2 e DH2 AIN-93 apresentaram maiores níveis de triglicérides no fígado. Com relação ao consumo alimentar, animais DH apresentaram maior consumo calórico e maior consumo lipídico quando comparados aos animais C e DC, com ração em pellet ou dieta AIN-93. Com relação ao LTE, não foram verificadas diferenças nas esquivas e na fuga. Animais DC1, DH1 e DH1 AIN-93 apresentaram menores níveis de ansiedade verificados a partir dos dados do teste da caixa claro-escuro. Animais DC2 AIN-93 apresentaram pior desempenho em tarefa de memória. Os dados obtidos a partir deste estudo demonstraram que as dietas utilizadas foram capazes de acarretar ganho de peso, acúmulo de tecido adiposo, alterações metabólicas, diminuição da ansiedade nos animais e pior desempenho em uma tarefa de memória em um dos grupos nutricionais.

Participação da conexina 32 na fisiopatogênese da doença hepática gordurosa não alcoólica em camundongos

A doença hepática gordurosa não alcoólica (DHGNA) abrange alterações desde esteatose até esteato-hepatite não alcoólica (EHNA), podendo evoluir para fibrose, cirrose e carcinoma hepatocelular. A DHGNA é considerada a doença hepática mais comum na atualidade e com prevalência mundial alarmante. Esta doença caracteriza-se, basicamente, pela deposição de triglicérides nos hepatócitos, podendo evoluir com inflamação e fibrose, e está intimamente associada com resistência à insulina (RI), diabetes mellitus tipo 2 e obesidade. Os hepatócitos representam as principais células hepáticas e se comunicam através de junções do tipo gap, formadas principalmente por conexina 32 (Cx32). Esta proteína apresenta importante função no controle da homeostase tecidual, regulando processos fisiológicos e tem sido associada como agente protetor na hepatocarcinogênese e outros processos patológicos, porem pouco se sabe sobre sua participação na DHGNA. Sendo assim, o objetivo deste trabalho foi avaliar a participação da Cx32 na fisiopatogênese da DHGNA, utilizando camundongos knockout para Cx32 (Cx32-KO) submetidos a uma dieta hiperlipídica deficiente em colina. Foram analisados dados biométricos, histopatológicos, função hepática, RI, citocinas inflamatórias, adipocinas, estresse oxidativo, peroxidação lipídica e a expressão de genes envolvidos na DHGNA. Os animais Cx32-KO apresentaram maior acumulo de triglicérides hepáticos em relação aos animais selvagens e, consequentemente, maior peso absoluto e relativo do fígado. Adicionalmente, apresentaram maior inflamação hepática demonstrado pela exacerbação da citocina TNF-α e supressão da IL-10, maior dano hepatocelular indicado pelo aumento das enzimas AST e ALT, aumento da peroxidação lipídica e alterações na expressão de genes chaves na fisiopatogênese da DHGNA, como SREBP1c. No entanto, não houve diferença nos marcadores histopatológicos, RI e estresse oxidativo hepático. Por fim, os animais Cx32-KO apresentaram maior produção de leptina e adiponectina no tecido adiposo. Todos esses resultados revelam que a Cx32 pode atuar como um agente protetor ao desenvolvimento da DHGNA, sugerindo seu potencial como novo alvo terapêutico

PGC-1 alfa como regulador inflamatório na esteato-hepatite não-alcoólica

A doença hepática gordurosa não-alcoólica (NAFLD, do inglês) é a manifestação clínica hepática da síndrome metabólica, cuja incidência aumenta consideravelmente em todo o mundo. A NAFLD pode progredir para um estado de esteatohepatite não-alcoólica (NASH, do inglês), caracterizado por inflamação hepatocelular, com ou sem fibrose. Dados na literatura mostram que o coativador-1 alfa do receptor ativado por proliferadores de peroxissoma gama (PGC-1alfa), além de estar envolvido em diversos processos metabólicos, representa uma estratégia terapêutica promissora na modulação da inflamação. Neste projeto investigamos as alterações inflamatórias no fígado induzida por dieta hiperlipídica e o papel do PGC-1alfa nesse processo. Camundongos C57black/6 receberam dieta hiperlipídica contendo 30% de gordura por 10 semanas. O peso dos animais foi avaliado semanalmente. Após a eutanásia, o tecido adiposo intra-abdominal (retroperitoneal e periepididimal) foi coletado e pesado. Analisamos o perfil glicêmico e lipídico sérico e expressão de genes envolvidos no metabolismo glicêmico e lipídico. Avaliou-se também o aspecto histológico e a inflamação do tecido hepático por quantificação das citocinas IL-6, TNF-alfa e IL-1beta. A dieta rica em gordura conduziu a um aumento dos depósitos de gordura intra-abdominal, hiperglicemia e hiperlipidemia. Os animais também apresentavam esteatohepatite, com aumento de citocinas pró-inflamatórias e diminuição na expressão de PGC-1alfa no tecido hepático. O envolvimento do PGC-1alfa na produção de mediadores inflamatórios por hepatócitos foi avaliado em células HepG2 utilizando RNA de interferência (RNAi). O knockdown da expressão de PGC-1alfa causou aumento na expressão e liberação de IL-6 em hepatócitos via aumento na fosforilação de IkBalfa e consequente ativação do NFkB. Portanto, nossos dados mostram que o PGC-1alfa inibe a produção de mediadores inflamatórios (IL-6) em hepatócitos, e fornecem novas evidências das conexões existentes entre as vias metabólicas e imunes