Your search keyword '"Larder, Rachel"' showing total 20 results

1. Obesity-associated gene TMEM18 has a role in the central control of appetite and body weight regulation

Author

Larder, Rachel, Sim, M. F. Michelle, Gulati, Pawan, Antrobus, Robin, Tung, Y. C. Loraine, Rimmington, Debra, Ayuso, Eduard, Polex-Wolf, Joseph, Lam, Brian Y. H., Dias, Cristina, Logan, Darren W., Virtue, Sam, Bosch, Fatima, Yeo, Giles S. H., Saudek, Vladimir, O’Rahilly, Stephen, and Coll, Anthony P.

Published

2017

2. Hypothalamic loss of Snord116 recapitulates the hyperphagia of Prader-Willi syndrome

Author

Polex-Wolf, Joseph, Lam, Brian Y.H., Larder, Rachel, Tadross, John, Rimmington, Debra, Bosch, Fatima, Cenzano, Veronica Jimenez, Ayuso, Eduard, Ma, Marcella K.L., Rainbow, Kara, Coll, Anthony P., O'Rahilly, Stephen, and Yeo, Giles S.H.

Subjects

Hyperphagia -- Genetic aspects -- Development and progression -- Care and treatment, Genotypes -- Health aspects, Prader-Willi syndrome -- Genetic aspects -- Complications and side effects -- Care and treatment, Health care industry

Abstract

Profound hyperphagia is a major disabling feature of Prader-Willi syndrome (PWS). Characterization of the mechanisms that underlie PWS-associated hyperphagia has been slowed by the paucity of animal models with increased food intake or obesity. Mice with a microdeletion encompassing the Snord116 cluster of noncoding RNAs encoded within the Prader-Willi minimal deletion critical region have previously been reported to show growth retardation and hyperphagia. Here, consistent with previous reports, we observed growth retardation in [Snord116.sup.+/-P] mice with a congenital paternal Snord116 deletion. However, these mice neither displayed increased food intake nor had reduced hypothalamic expression of the proprotein convertase 1 gene PCSK1 or its upstream regulator NHLH2, which have recently been suggested to be key mediators of PWS pathogenesis. Specifically, we disrupted Snord116 expression in the mediobasal hypothalamus in [Snord116.sup.fl] mice via bilateral stereotaxic injections of a Cre-expressing adeno-associated virus (AAV). While the Cre-injected mice had no change in measured energy expenditure, they became hyperphagic between 9 and 10 weeks after injection, with a subset of animals developing marked obesity. In conclusion, we show that selective disruption of Snord116 expression in the mediobasal hypothalamus models the hyperphagia of PWS., Introduction Prader-Willi syndrome (PWS) causes severe obesity, with affected individuals displaying profound food-seeking behavior (1, 2). People affected by PWS progress along a complex natural history with distinct phases, commencing [...]

Published

2018

3. Insulin-like peptide 5 is an orexigenic gastrointestinal hormone

Author

Grosse, Johannes, Heffron, Helen, Burling, Keith, Hossain, Mohammed Akhter, Habib, Abdella M., Rogers, Gareth J., Richards, Paul, Larder, Rachel, Rimmington, Debra, Adriaenssens, Alice A., Parton, Laura, Powell, Justin, Binda, Matteo, Colledge, William H., Doran, Joanne, Toyoda, Yukio, Wade, John D., Aparicio, Samuel, Carlton, Mark B. L., Coll, Anthony P., Reimann, Frank, O'Rahilly, Stephen, and Gribble, Fiona M.

Published

2014

4. Where to go with FTO?

Author

Larder, Rachel, Cheung, M.K. Marcella, Tung, Y.C. Loraine, Yeo, Giles S.H., and Coll, Anthony P.

Published

2011

5. Homeodomain Proteins SIX3 and SIX6 Regulate Gonadotrope-specific Genes During Pituitary Development

Author

Xie, Huimin, Hoffmann, Hanne M., Meadows, Jason D., Mayo, Susan L., Trang, Crystal, Leming, Sunamita S., Maruggi, Chiara, Davis, Shannon W., Larder, Rachel, and Mellon, Pamela L.

Published

2015

6. Proline-Rich Tyrosine Kinase 2 Mediates Gonadotropin-Releasing Hormone Signaling to a Specific Extracellularly Regulated Kinase-Sensitive Transcriptional Locus in the Luteinizing Hormone β-Subunit Gene

Author

Maudsley, Stuart, Naor, Zvi, Bonfil, David, Davidson, Lindsay, Karali, Dimitra, Pawson, Adam J., Larder, Rachel, Pope, Caroline, Nelson, Nancy, Millar, Robert P., and Brown, Pamela

Published

2007

7. Fanconi Anemia a Is a Nucleocytoplasmic Shuttling Molecule Required for Gonadotropin-Releasing Hormone (GnRH) Transduction of the GnRH Receptor

Author

Larder, Rachel, Karali, Dimitra, Nelson, Nancy, and Brown, Pamela

Published

2006

8. Haploinsufficiency of Homeodomain Proteins Six3, Vax1, and Otx2 Causes Subfertility in Mice via Distinct Mechanisms.

Author

Hoffmann, Hanne M., Pandolfi, Erica C., Larder, Rachel, and Mellon, Pamela L.

Subjects

HOMEOBOX proteins, MICE, ALLELES, INFERTILITY, REPRODUCTION

Abstract

Haploinsufficiency occurs when loss of one copy of a diploid gene (hemizygosity) causes a phenotype. It is relatively rare, in that most genes can produce sufficient mRNA and protein from a single copy to prevent any loss of normal activity and function. Reproduction is a complex process relying on migration of GnRH neurons from the olfactory placode to the hypothalamus during development. We have studied 3 different homeodomain genes Otx2, Vax1, and Six3 and found that the deletion of one allele for any of these genes in mice produces subfertility or infertility in one or both sexes, despite the presence of one intact allele. All 3 heterozygous mice have reduced numbers of GnRH neurons, but the mechanisms of subfertility differ significantly. This review compares the subfertility phenotypes and their mechanisms. [ABSTRACT FROM AUTHOR]

Published

2019

9. Differential CRE Expression in Lhrh-cre and GnRH-cre Alleles and the Impact on Fertility in Otx2-Flox Mice.

Author

Hoffmann, Hanne M., Larder, Rachel, Lee, Jessica S., Hu, Rachael J., Trang, Crystal, Devries, Brooke M., Clark, Daniel D., and Mellon, Pamela L.

Subjects

*FERTILITY, *GONADOTROPIN releasing hormone, *ALLELES, *SUPRACHIASMATIC nucleus, *NEURON development

Abstract

There is an increasing trend in studies utilizing cell-specific deletion of genes through conditional gene deletion by CRE recombination. Despite numerous advantages, this strategy also has limitations such as ectopic CRE-expression and germline recombination. Two commonly used gonadotropin-releasing hormone (Gnrh)-driven CRE-expressing mice both target GnRH neurons. However, a direct comparison of the cells targeted and their phenotypic outcome have not yet been presented. To compare where recombination takes place, we crossed the Gnrh-cre and Lhrh-cre lines with the Rosa26-LacZ reporter mouse. Lhrh-cre allowed recombination of the Rosa26-LacZ gene in ∼700 cells, which is comparable to the GnRH neuronal population. Surprisingly, there were > 20 times more LacZ expressing cells in the adult Gnrh-cre:Rosa26-LacZ than the Lhrh-cre:Rosa26-LacZ brain. The greatest differences in targeting of the Gnrh-cre and Lhrh-cre lines were found in the septum, the suprachiasmatic nucleus, and the septohypothalamic area. This difference in cells targeted was present from embryonic day 12. A prior study using the Gnrh-cre to delete the transcription factor Otx2 found fewer GnRH neurons, leading to male and female subfertility. To recapitulate this study, we performed a fertility assay in Otx2:Lhrh-cre mice. We confirmed the requirement for Otx2 in GnRH neuron development, fertility and correct gonadotropin hormone release in Otx2:Lhrh-cre males, but the subfertility was more modest than in Otx2:Gnrh-cre and absent in female Otx2:Lhrh-cre. This suggests that ectopic expression of Gnrh-cre contributes to the reproductive phenotype observed. Finally, the Cre alleles caused germline recombination of the flox allele when transmitted from either parent, generating embryonic lethal knock-out offspring, producing smaller live litters. [ABSTRACT FROM AUTHOR]

Published

2019

10. Guts over glory--why diets fail

Author

Larder, Rachel and O'Rahilly, Stephen

Subjects

Obesity -- Complications and side effects -- Genetic aspects -- Care and treatment, Gastrointestinal hormones -- Physiological aspects -- Genetic aspects, Diet -- Physiological aspects -- Genetic aspects, Biological sciences, Health

Abstract

The epidemic of obesity is now a major public health concern in many parts of the world, given its impact on diabetes, heart disease, stroke and cancer (1). Whereas genetics [...]

Published

2012

11. Gene dosage of Otx2 is important for fertility in male mice.

Author

Larder, Rachel, Kimura, Ikuo, Meadows, Jason, Clark, Daniel D., Mayo, Susan, and Mellon, Pamela L.

Subjects

*FERTILITY, *LABORATORY mice, *ANIMAL genetics, *GENE expression, *NEURONS, *CELL migration, *LUTEINIZING hormone releasing hormone receptors

Abstract

Highlights: [•] Correct dosage of Otx2 is critical for normal fertility in male mice. [•] Loss of one allele of Otx2 significantly decreases hypothalamic GnRH expression. [•] Decrease is likely due to abnormal migration of GnRH neurons during development. [Copyright &y& Elsevier]

Published

2013

12. Adult Onset Global Loss of the Fto Gene Alters Body Composition and Metabolism in the Mouse.

Author

McMurray, Fiona, Church, Chris D., Larder, Rachel, Nicholson, George, Wells, Sara, Teboul, Lydia, Tung, Y. C. Loraine, Rimmington, Debra, Bosch, Fatima, Jimenez, Veronica, Yeo, Giles S. H., O’Rahilly, Stephen, Ashcroft, Frances M., Coll, Anthony P., and Cox, Roger D.

Abstract

The strongest BMI–associated GWAS locus in humans is the FTO gene. Rodent studies demonstrate a role for FTO in energy homeostasis and body composition. The phenotypes observed in loss of expression studies are complex with perinatal lethality, stunted growth from weaning, and significant alterations in body composition. Thus understanding how and where Fto regulates food intake, energy expenditure, and body composition is a challenge. To address this we generated a series of mice with distinct temporal and spatial loss of Fto expression. Global germline loss of Fto resulted in high perinatal lethality and a reduction in body length, fat mass, and lean mass. When ratio corrected for lean mass, mice had a significant increase in energy expenditure, but more appropriate multiple linear regression normalisation showed no difference in energy expenditure. Global deletion of Fto after the in utero and perinatal period, at 6 weeks of age, removed the high lethality of germline loss. However, there was a reduction in weight by 9 weeks, primarily as loss of lean mass. Over the subsequent 10 weeks, weight converged, driven by an increase in fat mass. There was a switch to a lower RER with no overall change in food intake or energy expenditure. To test if the phenotype can be explained by loss of Fto in the mediobasal hypothalamus, we sterotactically injected adeno-associated viral vectors encoding Cre recombinase to cause regional deletion. We observed a small reduction in food intake and weight gain with no effect on energy expenditure or body composition. Thus, although hypothalamic Fto can impact feeding, the effect of loss of Fto on body composition is brought about by its actions at sites elsewhere. Our data suggest that Fto may have a critical role in the control of lean mass, independent of its effect on food intake. [ABSTRACT FROM AUTHOR]

Published

2013

13. Hypothalamic Dysregulation and Infertility in Mice Lacking the Homeodomain Protein Six6.

Author

Larder, Rachel, Clark, Daniel D., Miller, Nichol L. G., and Mellon, Pamela L.

Subjects

*HYPOTHALAMIC-pituitary-adrenal axis, *CELLULAR control mechanisms, *LUTEINIZING hormone releasing hormone, *TRANSCRIPTION factors, *NEURAL circuitry, *LABORATORY mice

Abstract

The hypothalamus, pituitary, and gonads coordinate to direct the development and regulation of reproductive function in mammals. Control of the hypothalamic-pituitary- gonadal axis is dependent on correct migration of gonadotropin-releasing hormone (GnRH) neurons from the nasal placode to the hypothalamus, followed by proper synthesis and pulsatile secretion of GnRH, functions absent in patients with hypogonadal hypogonadism. In this study, we identify sine oculis-related homeobox 6 (Six6) as a novel factor necessary for proper targeting of GnRH expression to the limited population of GnRH neurons within the adult mouse hypothalamus and demonstrate that it is required for proper reproductive function in both male and female mice. Female Six6-null mice exhibit a striking decrease in fertility, failing to progress through the estrous cycle normally, show any signs of successful ovulation, or produce litters. Although basal gonadotropin production in these mice is relatively normal, analysis of GnRH expression reveals a dramatic decrease in total GnRH neuron numbers. We show that expression of Six6 is dramatically increased during GnRH neuronal maturation and that overexpression of Six6 induces GnRH transcription in neuronal cells. Finally, we demonstrate that this induction in GnRH expression is mediated via binding of Six6 to evolutionarily conserved ATTA sites located within the GnRH proximal promoter. Together, these data indicate that Six6 plays an important role in the regulation of GnRH expression and hypothalamic control of fertility. [ABSTRACT FROM AUTHOR]

Published

2011

14. Otx2 Induction of the Gonadotropin-releasing Hormone Promoter Is Modulated by Direct Interactions with Grg Co-repressors.

Author

Larder, Rachel and Mellon, Pamela L.

Subjects

*GONADOTROPIN releasing hormone, *HYPOTHALAMIC hormones, *PITUITARY hormones, *TRANSCRIPTION factors, *CELL lines, *GENE expression, *GENETIC transcription regulation, *LABORATORY mice

Abstract

Hormonal communication between the hypothalamus, pituitary, and gonads orchestrates the development and regulation of mammalian reproductive function. In mice, gonadotropin-releasing hormone (GnRH) expression is limited to ∼1000 neurons that originate in the olfactory placode then migrate to specific positions scattered throughout the hypothalamus. Coordination of the hypothalamic-pituitary-gonadal axis is dependent upon correct migration of GnRH neurons into the hypothalamus followed by the appropriate synthesis and pulsatile secretion of GnRH. Defects in any one of these processes can cause infertility. Recently, substantial progress has been made in identifying transcription factors, and their cofactors, that regulate not only adult expression of GnRH, but also the maturation of GnRH neurons. Here, we show that expression of Otx2, a homeodomain protein required for the formation of the forebrain, is dramatically up-regulated during GnRH neuronal maturation and that overexpression of Otx2 increases GnRH promoter activity in GnRH neuronal cell lines. Furthermore, Otx2 transcriptional activity is modulated by Grg4, a member of the Groucho-related-gene (Grg) family. Using mutational analysis, we show that a WRPW peptide motif within the Otx2 protein is required for physical interaction between Otx2 and Grg4. Without this physical interaction, Grg4 cannot repress Otx2-dependent activation of GnRH gene transcription. Taken together, these data show that Otx2 is important for GnRH expression and that direct interaction between Otx2 and Grg co-repressors regulates GnRH gene expression in hypothalamic neurons. [ABSTRACT FROM AUTHOR]

Published

2009

15. Shedding pounds after going under the knife: Guts over glory-why diets fail.

Author

Larder, Rachel and O'Rahilly, Stephen

Subjects

*WEIGHT loss, *OBESITY, *GASTRIC bypass, *GASTRIC banding, *GASTRECTOMY, *DIET, *GASTROINTESTINAL hormones, *HOMEOSTASIS, *PHYSIOLOGY

Abstract

The article focuses on the importance of maintaining weight loss and the effect of obesity on diabetes, heart disease, and stroke. It states the efficacy of surgical methods such as gastric bypass, gastric banding, and sleeve gastrectomy as well as successful diet in reducing adiposity for obese people. It highlights the relevance of the appetite-regulating hormones from the gut in inducing sustained weight loss and in improving glucose homeostasis.

Published

2012

16. Gonadotropin-Releasing Hormone Regulates Expression of the DNA Damage Repair Gene, Fanconi anemia A, in Pituitary Gonadotroph Cells1

Author

Larder, Rachel, Chang, Lynda, Clinton, Michael, and Brown, Pamela

Published

2004

17. Trim28 Haploinsufficiency Triggers Bi-stable Epigenetic Obesity.

Author

Dalgaard, Kevin, Landgraf, Kathrin, Heyne, Steffen, Lempradl, Adelheid, Longinotto, John, Gossens, Klaus, Ruf, Marius, Orthofer, Michael, Strogantsev, Ruslan, Selvaraj, Madhan, Lu, Tess Tsai-Hsiu, Casas, Eduard, Teperino, Raffaele, Surani, M. Azim, Zvetkova, Ilona, Rimmington, Debra, Tung, Y.C. Loraine, Lam, Brian, Larder, Rachel, and Yeo, Giles S.H.

Subjects

*EPIGENETICS, *OBESITY, *BODY weight, *PHENOTYPES, *LABORATORY mice

Abstract

Summary More than one-half billion people are obese, and despite progress in genetic research, much of the heritability of obesity remains enigmatic. Here, we identify a Trim28-dependent network capable of triggering obesity in a non-Mendelian, “on/off” manner. Trim28 +/D9 mutant mice exhibit a bi-modal body-weight distribution, with isogenic animals randomly emerging as either normal or obese and few intermediates. We find that the obese-“on” state is characterized by reduced expression of an imprinted gene network including Nnat , Peg3 , Cdkn1c , and Plagl1 and that independent targeting of these alleles recapitulates the stochastic bi-stable disease phenotype. Adipose tissue transcriptome analyses in children indicate that humans too cluster into distinct sub-populations, stratifying according to Trim28 expression, transcriptome organization, and obesity-associated imprinted gene dysregulation. These data provide evidence of discrete polyphenism in mouse and man and thus carry important implications for complex trait genetics, evolution, and medicine. Video Abstract [ABSTRACT FROM AUTHOR]

Published

2016

18. Genetic aspects of human obesity.

Author

Larder R, Lim CT, and Coll AP

Subjects

Animals, Energy Metabolism physiology, Genetic Predisposition to Disease genetics, Homeostasis physiology, Humans, Obesity diagnosis, Pro-Opiomelanocortin genetics, Pro-Opiomelanocortin metabolism, Hypothalamus physiology, Obesity genetics, Obesity metabolism

Abstract

Obesity and its related metabolic consequences represent a major public health problem. Huge changes within the environment have undoubtedly contributed to the increased prevalence of obesity but genetic factors are also critical in determining an individual's predisposition to gain weight. The last two decades have seen a huge increase in the understanding of the mechanisms controlling appetitive behavior, body composition, and energy expenditure. Many regions throughout the central nervous system play critical roles in these processes but the hypothalamus, in particular, receives and orchestrates a variety of signals to bring about coordinated changes in energy balance. Reviewing data from human genetic and model organism studies, we consider how disruptions of hypothalamic pathways evolved to maintain energy homeostasis and go on to cause obesity. We highlight ongoing technological developments which continue to lead to novel insights and discuss how this increased knowledge may lead to effective therapeutic interventions in the future., (© 2014 Elsevier B.V. All rights reserved.)

Published

2014

19. Depletion of stromal cells expressing fibroblast activation protein-α from skeletal muscle and bone marrow results in cachexia and anemia.

Author

Roberts EW, Deonarine A, Jones JO, Denton AE, Feig C, Lyons SK, Espeli M, Kraman M, McKenna B, Wells RJ, Zhao Q, Caballero OL, Larder R, Coll AP, O'Rahilly S, Brindle KM, Teichmann SA, Tuveson DA, and Fearon DT

Subjects

Adipose Tissue metabolism, Anemia genetics, Anemia pathology, Animals, Cachexia genetics, Cachexia pathology, Cell Lineage genetics, Chemokine CXCL12 genetics, Chemokine CXCL12 metabolism, Endopeptidases, Erythropoiesis genetics, Follistatin genetics, Follistatin metabolism, Hematopoiesis genetics, Lymphopoiesis genetics, Mice, Mice, Inbred C57BL, Mice, Transgenic genetics, Mice, Transgenic metabolism, Muscle, Skeletal cytology, Muscular Disorders, Atrophic genetics, Muscular Disorders, Atrophic metabolism, Neoplasms genetics, Neoplasms metabolism, Pancreas metabolism, Stromal Cells cytology, Transcriptome genetics, Anemia metabolism, Bone Marrow metabolism, Cachexia metabolism, Gelatinases genetics, Gelatinases metabolism, Membrane Proteins genetics, Membrane Proteins metabolism, Muscle, Skeletal metabolism, Serine Endopeptidases genetics, Serine Endopeptidases metabolism, Stromal Cells metabolism

Abstract

Fibroblast activation protein-α (FAP) identifies stromal cells of mesenchymal origin in human cancers and chronic inflammatory lesions. In mouse models of cancer, they have been shown to be immune suppressive, but studies of their occurrence and function in normal tissues have been limited. With a transgenic mouse line permitting the bioluminescent imaging of FAP(+) cells, we find that they reside in most tissues of the adult mouse. FAP(+) cells from three sites, skeletal muscle, adipose tissue, and pancreas, have highly similar transcriptomes, suggesting a shared lineage. FAP(+) cells of skeletal muscle are the major local source of follistatin, and in bone marrow they express Cxcl12 and KitL. Experimental ablation of these cells causes loss of muscle mass and a reduction of B-lymphopoiesis and erythropoiesis, revealing their essential functions in maintaining normal muscle mass and hematopoiesis, respectively. Remarkably, these cells are altered at these sites in transplantable and spontaneous mouse models of cancer-induced cachexia and anemia. Thus, the FAP(+) stromal cell may have roles in two adverse consequences of cancer: their acquisition by tumors may cause failure of immunosurveillance, and their alteration in normal tissues contributes to the paraneoplastic syndromes of cachexia and anemia.

Published

2013

20. Proline-rich tyrosine kinase 2 mediates gonadotropin-releasing hormone signaling to a specific extracellularly regulated kinase-sensitive transcriptional locus in the luteinizing hormone beta-subunit gene.

Author

Maudsley S, Naor Z, Bonfil D, Davidson L, Karali D, Pawson AJ, Larder R, Pope C, Nelson N, Millar RP, and Brown P

Subjects

Animals, Early Growth Response Protein 1 physiology, Gene Amplification, Humans, Mice, Phosphorylation, Promoter Regions, Genetic, Sheep, Signal Transduction, Transfection, Extracellular Signal-Regulated MAP Kinases metabolism, Gene Expression Regulation, Gonadotropin-Releasing Hormone physiology, Luteinizing Hormone, beta Subunit genetics, Protein-Tyrosine Kinases physiology, Transcription, Genetic

Abstract

G protein-coupled receptor regulation of gene transcription primarily occurs through the phosphorylation of transcription factors by MAPKs. This requires transduction of an activating signal via scaffold proteins that can ultimately determine the outcome by binding signaling kinases and adapter proteins with effects on the target transcription factor and locus of activation. By investigating these mechanisms, we have elucidated how pituitary gonadotrope cells decode an input GnRH signal into coherent transcriptional output from the LH beta-subunit gene promoter. We show that GnRH activates c-Src and multiple members of the MAPK family, c-Jun NH2-terminal kinase 1/2, p38MAPK, and ERK1/2. Using dominant-negative point mutations and chemical inhibitors, we identified that calcium-dependent proline-rich tyrosine kinase 2 specifically acts as a scaffold for a focal adhesion/cytoskeleton-dependent complex comprised of c-Src, Grb2, and mSos that translocates an ERK-activating signal to the nucleus. The locus of action of ERK was specifically mapped to early growth response-1 (Egr-1) DNA binding sites within the LH beta-subunit gene proximal promoter, which was also activated by p38MAPK, but not c-Jun NH2-terminal kinase 1/2. Egr-1 was confirmed as the transcription factor target of ERK and p38MAPK by blockade of protein expression, transcriptional activity, and DNA binding. We have identified a novel GnRH-activated proline-rich tyrosine kinase 2-dependent ERK-mediated signal transduction pathway that specifically regulates Egr-1 activation of the LH beta-subunit proximal gene promoter, and thus provide insight into the molecular mechanisms required for differential regulation of gonadotropin gene expression.

Published

2007