Yi-Hsueh Lu scite author profile

Leptin is a hormone produced by the adipose tissue that acts in the brain, stimulating white fat breakdown. We find that the lipolytic effect of leptin is mediated through the action of sympathetic nerve fibers that innervate the adipose tissue. Using intravital two-photon microscopy, we observe that sympathetic nerve fibers establish neuro-adipose junctions, directly "enveloping" adipocytes. Local optogenetic stimulation of sympathetic inputs induces a local lipolytic response and depletion of white adipose mass. Conversely, genetic ablation of sympathetic inputs onto fat pads blocks leptin-stimulated phosphorylation of hormone-sensitive lipase and consequent lipolysis, as do knockouts of dopamine β-hydroxylase, an enzyme required for catecholamine synthesis. Thus, neuro-adipose junctions are necessary and sufficient for the induction of lipolysis in white adipose tissue and are an efferent effector of leptin action. Direct activation of sympathetic inputs to adipose tissues may represent an alternative approach to induce fat loss, circumventing central leptin resistance. PAPERCLIP.

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Three Phosphatidylglycerol-phosphate Phosphatases in the Inner Membrane of Escherichia coli

Lu¹,

Guan

Zhao

et al. 2011

Journal of Biological Chemistry

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The phospholipids of Escherichia coli consist mainly of phosphatidylethanolamine, phosphatidylglycerol (PG), and cardiolipin. PG makes up ϳ25% of the cellular phospholipid and is essential for growth in wild-type cells. PG is synthesized on the inner surface of the inner membrane from cytidine diphosphate-diacylglycerol and glycerol 3-phosphate, generating the precursor phosphatidylglycerol-phosphate (PGP). This compound is present at low levels (ϳ0.1% of the total lipid). Dephosphorylation of PGP to PG is catalyzed by several PGPphosphatases. The pgpA and pgpB genes, which encode structurally distinct PGP-phosphatases, were identified previously. Double deletion mutants lacking pgpA and pgpB are viable and still make PG, suggesting the presence of additional phosphatase(s). We have identified a third PGP-phosphatase gene (previously annotated as yfhB but renamed pgpC) using an expression cloning strategy. A mutant with deletions in all three phosphatase genes is not viable unless covered by a plasmid expressing either pgpA, pgpB, or pgpC. When the triple mutant is covered with the temperature-sensitive plasmid pMAK705 expressing any one of the three pgp genes, the cells grow at 30 but not 42°C. As growth slows at 42°C, PGP accumulates to high levels, and the PG content declines. PgpC orthologs are present in many other bacteria.

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Dysregulation of a long noncoding RNA reduces leptin leading to a leptin-responsive form of obesity

Dallner

Marinis

et al. 2019

Nat Med

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Twelve-Minute Daily Yoga Regimen Reverses Osteoporotic Bone Loss

Rosner

Chang

et al. 2016

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Objective:Assess the effectiveness of selected yoga postures in raising bone mineral density (BMD).Methods:Ten-year study of 741 Internet-recruited volunteers comparing preyoga BMD changes with postyoga BMD changes.Outcome Measures:Dual-energy x-ray absorptiometric scans. Optional radiographs of hips and spine and bone quality study (7 Tesla).Results:Bone mineral density improved in spine, hips, and femur of the 227 moderately and fully compliant patients. Monthly gain in BMD was significant in spine (0.0029 g/cm2, P = .005) and femur (0.00022 g/cm2, P = .053), but in 1 cohort, although mean gain in hip BMD was 50%, large individual differences raised the confidence interval and the gain was not significant for total hip (0.000357 g/cm2). No yoga-related serious injuries were imaged or reported. Bone quality appeared qualitatively improved in yoga practitioners.Conclusion:Yoga appears to raise BMD in the spine and the femur safely.

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Nuclear Factor-Y is an adipogenic factor that regulates leptin gene expression

Lu¹,

Dallner²,

Birsoy³

et al. 2015

Molecular Metabolism

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ObjectiveLeptin gene expression is highly correlated with cellular lipid content in adipocytes but the transcriptional mechanisms controlling leptin expression in vivo are poorly understood. In this report, we set out to identify cis- and trans-regulatory elements controlling leptin expression.MethodsLeptin-BAC luciferase transgenic mice combining with other computational and molecular techniques were used to identify transcription regulatory elements including a CCAAT-binding protein Nuclear Factor Y (NF-Y). The function of NF-Y in adipocyte was studied in vitro with 3T3-L1 cells and in vivo with adipocyte-specific knockout of NF-Y.ResultsUsing Leptin-BAC luciferase mice, we showed that DNA sequences between −22 kb and +8.8 kb can confer quantitative expression of a leptin reporter. Computational analysis of sequences and gel shift assays identified a 32 bp sequence (chr6: 28993820–2899385) consisting a CCAAT binding site for Nuclear Factor Y (NF-Y) and this was confirmed by a ChIP assay in vivo. A deletion of this 32 bp sequence in the −22 kb to +8.8 kb leptin-luciferase BAC reporter completely abrogates luciferase reporter activity in vivo. RNAi mediated knockdown of NF-Y interfered with adipogenesis in vitro and adipocyte-specific knockout of NF-Y in mice reduced expression of leptin and other fat specific genes in vivo. Further analyses of the fat specific NF-Y knockout revealed that these animals develop a moderately severe lipodystrophy that is remediable with leptin therapy.ConclusionsThese studies advance our understanding of leptin gene expression and show that NF-Y controls the expression of leptin and other adipocyte genes and identifies a new form of lipodystrophy.

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Yi-Hsueh Lu

Sympathetic Neuro-adipose Connections Mediate Leptin-Driven Lipolysis

Three Phosphatidylglycerol-phosphate Phosphatases in the Inner Membrane of Escherichia coli

Dysregulation of a long noncoding RNA reduces leptin leading to a leptin-responsive form of obesity

Twelve-Minute Daily Yoga Regimen Reverses Osteoporotic Bone Loss

Nuclear Factor-Y is an adipogenic factor that regulates leptin gene expression

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