Anil K. Agarwal scite author profile

Lipodystrophy is a disorder characterized by a loss of adipose tissue often accompanied by severe hypertriglyceridemia, insulin resistance, diabetes, and fatty liver. It can be inherited or acquired. The most severe inherited form is Berardinelli-Seip Congenital Lipodystrophy Type 2, associated with mutations in the BSCL2 gene. BSCL2 encodes seipin, the function of which has been entirely unknown. We now report the identification of yeast BSCL2/seipin through a screen to detect genes important for lipid droplet morphology. The absence of yeast seipin results in irregular lipid droplets often clustered alongside proliferated endoplasmic reticulum (ER); giant lipid droplets are also seen. Many small irregular lipid droplets are also apparent in fibroblasts from a BSCL2 patient. Human seipin can functionally replace yeast seipin, but a missense mutation in human seipin that causes lipodystrophy, or corresponding mutations in the yeast gene, render them unable to complement. Yeast seipin is localized in the ER, where it forms puncta. Almost all lipid droplets appear to be on the ER, and seipin is found at these junctions. Therefore, we hypothesize that seipin is important for droplet maintenance and perhaps assembly. In addition to detecting seipin, the screen identified 58 other genes whose deletions cause aberrant lipid droplets, including 2 genes encoding proteins known to activate lipin, a lipodystrophy locus in mice, and 16 other genes that are involved in endosomallysosomal trafficking. The genes identified in our screen should be of value in understanding the pathway of lipid droplet biogenesis and maintenance and the cause of some lipodystrophies. BSCL2 ͉ lipid bodies

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Seipin is required for converting nascent to mature lipid droplets

Wang

et al. 2016

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How proteins control the biogenesis of cellular lipid droplets (LDs) is poorly understood. Using Drosophila and human cells, we show here that seipin, an ER protein implicated in LD biology, mediates a discrete step in LD formation—the conversion of small, nascent LDs to larger, mature LDs. Seipin forms discrete and dynamic foci in the ER that interact with nascent LDs to enable their growth. In the absence of seipin, numerous small, nascent LDs accumulate near the ER and most often fail to grow. Those that do grow prematurely acquire lipid synthesis enzymes and undergo expansion, eventually leading to the giant LDs characteristic of seipin deficiency. Our studies identify a discrete step of LD formation, namely the conversion of nascent LDs to mature LDs, and define a molecular role for seipin in this process, most likely by acting at ER-LD contact sites to enable lipid transfer to nascent LDs.DOI: http://dx.doi.org/10.7554/eLife.16582.001

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AGPAT2 is mutated in congenital generalized lipodystrophy linked to chromosome 9q34

et al. 2002

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Zinc metalloproteinase, ZMPSTE24, is mutated in mandibuloacral dysplasia

Agarwal

Fryns

Auchus

et al. 2003

Human Molecular Genetics

357

302

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Mandibuloacral dysplasia (MAD; OMIM 248370) is a rare, genetically and phenotypically heterogeneous, autosomal recessive disorder characterized by skeletal abnormalities including hypoplasia of the mandible and clavicles, acro-osteolysis, cutaneous atrophy and lipodystrophy. A homozygous missense mutation, Arg527His, in the LMNA gene which encodes nuclear lamina proteins lamins A and C has been reported in patients with MAD and partial lipodystrophy. We studied four patients with MAD who had no mutations in the LMNA gene. We now show compound heterozygous mutations, Phe361fsX379 and Trp340Arg, in the zinc metalloproteinase (ZMPSTE24) gene in one of the four patients who had severe MAD associated with progeroid appearance and generalized lipodystrophy. ZMPSTE24 is involved in post-translational proteolytic cleavage of carboxy terminal residues of farnesylated prelamin A in two steps to form mature lamin A. Deficiency of Zmpste24 in mice causes accumulation of prelamin A and phenotypic features similar to MAD. The yeast homolog, Ste24, has a parallel role in processing of prenylated mating pheromone a-factor. Since human ZMPSTE24 can also process a-factor when expressed in yeast, we assessed the functional significance of the two ZMPSTE24 mutations in the yeast to complement the mating defect of the haploid MATa yeast lacking STE24 and Ras-converting enzyme 1 (RCE1; another prenylprotein-specific endoprotease) genes. The ZMPSTE24 mutant construct, Phe361fsX379, was inactive in complementing the yeast a-factor but the mutant, Trp340Arg, was partially active compared to the wild type ZMPSTE24 construct. We conclude that mutations in ZMPSTE24 may cause MAD by affecting prelamin A processing.

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Human hypertension caused by mutations in the kidney isozyme of 11β–hydroxysteroid dehydrogenase

et al. 1995

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The syndrome of apparent mineralocorticoid excess (AME) is an inherited form of human hypertension thought to result from a deficiency of 11 beta-hydroxysteroid dehydrogenase (11 beta HSD). This enzyme normally converts cortisol to inactive cortisone and is postulated to thus confer specificity for aldosterone upon the mineralocorticoid receptor. We have analysed the gene encoding the kidney isozyme of 11 beta HSD and found mutations on both alleles in nine of 11 AME patients (eight of nine kindreds). These mutations markedly affect enzymatic activity. They thus permit cortisol to occupy the renal mineralocorticoid receptor and thereby cause sodium retention and hypertension.

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PSMB8 Encoding the β5i Proteasome Subunit Is Mutated in Joint Contractures, Muscle Atrophy, Microcytic Anemia, and Panniculitis-Induced Lipodystrophy Syndrome

Agarwal

Xing

DeMartino

et al. 2010

The American Journal of Human Genetics

293

245

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We performed homozygosity mapping in two recently reported pedigrees from Portugal and Mexico with an autosomal-recessive autoinflammatory syndrome characterized by joint contractures, muscle atrophy, microcytic anemia, and panniculitis-induced lipodystrophy (JMP). This revealed only one homozygous region spanning 2.4 Mb (5818 SNPs) on chromosome 6p21 shared by all three affected individuals from both families. We directly sequenced genes involved in immune response located in this critical region, excluding the HLA complex genes. We found a homozygous missense mutation c.224C>T (p.Thr75Met) in the proteasome subunit, beta-type, 8 (PSMB8) gene in affected patients from both pedigrees. The mutation segregated in an autosomal-recessive fashion and was not detected in 275 unrelated ethnically matched healthy subjects. PSMB8 encodes a catalytic subunit of the 20S immunoproteasomes called β5i. Immunoproteasome-mediated proteolysis generates immunogenic epitopes presented by major histocompatibility complex (MHC) class I molecules. Threonine at position 75 is highly conserved and its substitution with methionine disrupts the tertiary structure of PSMB8. As compared to normal lymphoblasts, those from an affected patient showed significantly reduced chymotrypsin-like proteolytic activity mediated by immunoproteasomes. We conclude that mutations in PSMB8 cause JMP syndrome, most probably by affecting MHC class I antigen processing.

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Molecular Mechanisms of Hepatic Steatosis and Insulin Resistance in the AGPAT2-Deficient Mouse Model of Congenital Generalized Lipodystrophy

et al. 2009

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SUMMARY Mutations in 1-acylglycerol-3-phosphate-O-acyltransferase 2 (AGPAT2) cause congenital generalized lipodystrophy. To understand the molecular mechanisms underlying the metabolic complications associated with AGPAT2 deficiency, Agpat2 null mice were generated. Agpat2−/− mice develop severe lipodystrophy affecting both white and brown adipose tissue, severe insulin resistance, diabetes, and hepatic steatosis. The expression of lipogenic genes and rates of de novo fatty acid biosynthesis were increased ~4-fold in Agpat2−/− mouse livers. The mRNA and protein levels of monoacylglycerol acyltransferase isoform 1 were markedly increased in the livers of Agpat2−/− mice suggesting that the alternative monoacylglycerol pathway for triglyceride biosynthesis is activated in the absence of AGPAT2. Feeding a fat-free diet reduced liver triglycerides by ~50% in Agpat2−/− mice. These observations suggest that both dietary fat and hepatic triglyceride biosynthesis via a novel monoacylglycerol pathway may contribute to hepatic steatosis in Agpat2−/− mice.

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Measurement of TG synthesis and turnover in vivo by²H₂O incorporation into the glycerol moiety and application of MIDA

Turner¹,

Murphy²,

Neese³

et al. 2003

American Journal of Physiology-Endocrinology and Metabolism

113

226

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), excluding significant dilution by unlabeled ␣-glycerol phosphate. Turnover of plasma TG, modeled from 2 H incorporation over 60 min, was 0.06 min Ϫ1 (half-life 11.5 min). In summary, use of 2 H2O labeling with MIDA of TG-glycerol allows measurement of new ␣-glycerol phosphate-derived TG synthesis and turnover. The hypothesis that mesenteric TG is more lipolytically active than other depots, previously difficult to prove by isotope dilution techniques, was confirmed by this label incorporation approach.triglyceride; mass isotopomer distribution analysis; kinetics; stable isotopes THE SYNTHESIS AND BREAKDOWN RATES of acylglycerides, such as triacylglycerol (TG), play a role in a number of important conditions including obesity, lipodystrophy, and hyperlipidemia as well as processes such as the biogenesis of cellular organelles (3,26). The turnover of TG, the major component of adipose tissue, is of particular interest in view of the increasing prevalence of obesity (23,32). A reliable method for measuring allsource synthesis and turnover of acylglycerides in vivo could provide insights into these and other lipid disorders. To date, however, no such method has been available.One of the methodological barriers to measuring all-source TG turnover has been that the turnover of fatty acid constituents of TG is not synonymous with the turnover of the intact acylglyceride molecule.

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Anil K. Agarwal

The lipodystrophy protein seipin is found at endoplasmic reticulum lipid droplet junctions and is important for droplet morphology

Seipin is required for converting nascent to mature lipid droplets

AGPAT2 is mutated in congenital generalized lipodystrophy linked to chromosome 9q34

Zinc metalloproteinase, ZMPSTE24, is mutated in mandibuloacral dysplasia

Human hypertension caused by mutations in the kidney isozyme of 11β–hydroxysteroid dehydrogenase

PSMB8 Encoding the β5i Proteasome Subunit Is Mutated in Joint Contractures, Muscle Atrophy, Microcytic Anemia, and Panniculitis-Induced Lipodystrophy Syndrome

Molecular Mechanisms of Hepatic Steatosis and Insulin Resistance in the AGPAT2-Deficient Mouse Model of Congenital Generalized Lipodystrophy

Measurement of TG synthesis and turnover in vivo by²H₂O incorporation into the glycerol moiety and application of MIDA

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Anil K. Agarwal

The lipodystrophy protein seipin is found at endoplasmic reticulum lipid droplet junctions and is important for droplet morphology

Seipin is required for converting nascent to mature lipid droplets

AGPAT2 is mutated in congenital generalized lipodystrophy linked to chromosome 9q34

Zinc metalloproteinase, ZMPSTE24, is mutated in mandibuloacral dysplasia

Human hypertension caused by mutations in the kidney isozyme of 11β–hydroxysteroid dehydrogenase

PSMB8 Encoding the β5i Proteasome Subunit Is Mutated in Joint Contractures, Muscle Atrophy, Microcytic Anemia, and Panniculitis-Induced Lipodystrophy Syndrome

Molecular Mechanisms of Hepatic Steatosis and Insulin Resistance in the AGPAT2-Deficient Mouse Model of Congenital Generalized Lipodystrophy

Measurement of TG synthesis and turnover in vivo by2H2O incorporation into the glycerol moiety and application of MIDA

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Measurement of TG synthesis and turnover in vivo by²H₂O incorporation into the glycerol moiety and application of MIDA