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2013 | 69 | 12 |

Tytuł artykułu

Changed gene expression and longevity in honeybees (Apis mellifera) fed with phenylbutyrate- and phenylacetylglutaminate-supplemented diet

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
4-4-Phenylbutyrate (PB), present in plants and royal jelly (RJ), plays a vital part in honeybee longevity. Phenylacetylglutaminate (PG) is a metabolite of PB. The aim of this research was to study changes in gene expression in honeybee workers fed with PB+PG-supplemented diet (in 50% sucrose syrup) by gene array and pathway analysis of their brains, and to perform cage longevity studies. The control group received sucrose syrup only. The statistical analysis of microarray results was performed with Genespring and LimmaGUL. Functionally related genes were identified with the help of Gene Ontology in Gostat. A detailed pathway analysis was conducted by importing annotated gene lists to the PathwayArchitect. The most significant results were noted in chromatin remodeling, the TCA cycle, glutathione system (up-regulation), and Notch signaling (down-regulation), which may contribute to increased longevity. These results suggest that PB and PG increase the expression of genes that play an important part in development and life extension. The study of the longevity of caged honeybees consisted in feeding larvae and worker bees with PB+PG-supplemented diet, and comparing them with non-supplemented controls. In three longevity experiments, the bees that were given PB+PG at the larval stage lived longer. This points to a long-term epigenetic effect, which has not been observed in earlier studies.

Wydawca

-

Rocznik

Tom

69

Numer

12

Opis fizyczny

p.753-759,fig.,ref.

Twórcy

  • Burzynski Clinic/Burzynski Research Institute, Houston, TX, USA
autor
  • University of Life Sciences in Lublin, Lublin, Poland
autor
  • Burzynski Clinic/Burzynski Research Institute, Houston, TX, USA
  • Burzynski Clinic/Burzynski Research Institute, Houston, TX, USA
autor
  • University of Life Sciences in Lublin, Lublin, Poland
autor
  • University of Life Sciences in Lublin, Lublin, Poland
  • Center for Functional Genomics and Department of Biomedical Sciences, University at Albany, Rensselaer, NY, USA
autor
  • Strand Life Sciences, Carlsbad, CA, USA
autor
  • Strand Life Sciences, Carlsbad, CA, USA
  • University of Life Sciences in Lublin, Lublin, Poland

Bibliografia

  • 1. Amdam G. V.: Social context, stress, and plasticity of ageing. Aging Cell 2011, 10, 18-27.
  • 2. Barchuk A., Cristino A. S., Kucharski R., Costa L. F., Simoes Z. L., Maleszka R.: Molecular determinants of caste differentiation in the highly eusocial honeybee Apis mellifera. BMC Dev. Biol. 2007, 7, 70.
  • 3. Beites C., Campbell K. A., Trimble W. S.: The septin Sept5/CDCrei-l competes with alpha-SNAP for binding to the SNARE complex. Biochem J. 2005, 385, 347-353.
  • 4. Burzyński S. R.: Age management treatments which target silenced genes. Redberry GW, ed. Gene Silencing: New Research Nova Science Publishers, Inc. 2006.
  • 5. Burzyński S. R.: Practical application of gene silencing theory of aging: life extension in animal testing and human clinical trails. Anti Ageing Medical Therapeutics 2009, 11, 1-8.
  • 6. Burzyński S. R., Ilkowska-Musial E., Klimczak M. W., Musiał L.: Antineoplastons in dairy products. J. Appl. Nut. 2004, 54, 1-8.
  • 7. Chojnacki A., Shimazaki T., Gregg C., Weinmaster G., Weiss S.: Glycoprotein 130 signaling regulates Notch1 expression and activation in the self-renewal of mammalian forebrain neural stem cells. J. Neurosci. 2003, 23, 1730-1741.
  • 8. Consortium: Honeybee Genome Sequencing Consortium. Insights into social insects from the genome of the honeybee Apis mellifera. Nature 2006, 443, 931-949.
  • 9. Corona M., Estrada E., Zurita M.: Differential expression of mitochondrial genes between queens and workers during caste determination in the honeybee Apis mellifera. J. Exp. Biol. 1999, 202, 929-938.
  • 10. Corona M., Velarde R. A., Remolina S., Moran-Lauter A., Wang Y., Hughes K. A., Robinson G. E.: Vitellogenin, juvenile hormone, insulin signaling, and queen honey bee longevity. Proc. Natl. Acad. Sci. 2007, 104, 7128-7133.
  • 11. Dvir H., Harel M., McCarthy A. A., Toker L., Silman I., Futerman A. H., Sussman J. L.: X-ray structure of human acid-beta-glucosidase, the defective enzyme in Gaucher disease. EMBO Rep. 2003, 4, 704-709.
  • 12. Ehebauer M., Hayward P., Arias A. M.: Notch, a universal arbiter of cell fate decisions. Science 2006, 314, 1414-1415.
  • 13. Evans J. D., Wheeler D. E.: Gene expression and the evolution of insect polyphenisms. Bioassays 2001, 23, 62-68.
  • 14. Field S. J., Madson N., Kerr M. L., Galbraith K. A., Kennedy C. E., Tahiliani M., Wilkins A., Cantley L. C.: PtdIns(4,5)P2 functions at the cleavage furrow during cytokinesis. Curr. Biol. 2005, 15, 1407-1412.
  • 15. Grozinger C. M., Sharabash N. M., Whitfield C. W., Robinson G. E.: Pheromone mediated gene expression in the honey bee brain. Proc. Natl. Acad. Sci. 2003, 100, 14519-14525.
  • 16. Iannitti T., Palmieri B.: Clinical and Experimental Applications of Sodium Phenylbutyrate. Drugs R. D. 2011, 11, 227-249.
  • 17. Ihara M., Kinoshita A., Yamada S., Tanaka H., Tanigaki A., Kitano A., Goto M., Okubo K., Nishiyama H., Ogawa O., Takahashi C., Itohara S., Nishimune Y., Noda M., Kinoshita M.: Cortical organization by the septin cytoskeleton is essential for structural and mechanical integrity of mammalian spermatozoa. Dev. Cell 2005, 8, 343-352.
  • 18. Juhasz G., Neufeld T. P.: Drosophila Atg7: required for stress resistance, longevity and neuronal homeostasis, but not for metamorphosis. Autophagy 2008, 4, 357-358.
  • 19. Kamakura M.: Royalactin induces queen differentiation in honeybees. Nature 2011, 473, 478-483.
  • 20. Kang H.-L., Benzer S., Min K.-T.: Life extension in Drosophila by feeding a drug. Proc. Natl. Acad. Sci. 2002, 99, 838-843.
  • 21. Kouranti I., Sachse M., Arouche N., Goud B., Echard A.: Rab35 regulates an endocytic recycling pathway essential for the terminal steps of cytokinesis. Curr. Biol. 2006, 16, 1719-1725.
  • 22. Kucharski R., Maleszka J., Foret S., Maleszka R.: Nutritional control of reproductive status in honeybees via DNA methylation. Science 2008, 319, 1827-1830.
  • 23. Kurz T., Terman A., Gustafsson B., Brunk U. T.: Lysosomes in iron metabolism, ageing and apoptosis. Histochem. Cell Biol. 2008, 129, 389-406.
  • 24. Lin S. J., Kaeberlein M., Andalis A. A., Sturtz L. A., Defossez P. A., Culotta V. C., Fink G. R., Guarente L.: Calorie restriction extends Saccharomyces cerevisiae lifespan by increasing respiration. Nature 2002, 418, 344-348.
  • 25. Ly D. H., Lockhart D. J., Lerner R. A., Schultz P. G.: Mitotic misregulation and human aging. Science 2000, 287, 2486-2492.
  • 26. Lyko F., Maleszka R.: Insects as innovative models for functional studies of DNA methylation. Trends Genet. 2011, 27, 127-164.
  • 27. Maleszka R.: Epigenetic interaction of environmental and genomic signals in honey bees. Epigenetics 2008, 3, 188-192.
  • 28. Münch D., Amdam G. V., Wolshin F.: Ageing in a eusocial insect: molecular and physiological characteristics of lifespan plasticity in honey bee. Funct. Ecol. 2008, 22, 407-421.
  • 29. Nakagawa T., Yamaguchi M.: Over expression of regucalcin suppresses cell response for tumor necrosis factor-alpha or trans forming growth factor-betal in cloned normal rat kidney proximal tubular epithelial NRK52E cells. J. Cell Biochem. 2007, 100, 1178-1190.
  • 30. Oefner C., D’Arcy A., Hennig M., Winkler F. K., Dale G. E.: Structure of human neutral endopeptidase (Neprilysin) complexed with phosphoramidon. J. Mol. Biol. 2000, 296, 341-349.
  • 31. Paleolog J., Strachecka A., Burzyński S. R., Olszewski K., Borsuk G.: The larval diet supplemented with sodium phenylacetylglutaminate influences the worker cuticle proteolytic system in western honey bee Apis mellifera L. J. Apic. Sci. 2011, 55, 73-84.
  • 32. Piscitelli S. C., Thibault A., Figg W. D., Tompkins A., Headlee D., Lieberman R., Samid D., Myers C. E.: Disposition of phenylbutyrate and its metabolites, phenylacetate and phenylacetylglutamine. J. Clin. Pharmacol. 1995, 35, 368-373.
  • 33. Silió V., Marques M., Coites I., Zuluaga S., Carrera A. C.: A cascade involving p85, Cdc42 and septin 2 regulates cytokinesis. Biochem. Soc. Trans. 2007, 35, 222-224.
  • 34. Sinclair B., Gibbs A. G., Roberts S. P.: Gene transcription during exposure to, and recovery from, cold and desiccation stress in Drosophila melanogaster. Insect Mol. Biol. 2007, 16, 435-443.
  • 35. Slemmer J., Shacka J. J., Sweeney M. I., Weber J. T.: Antioxidants and free radical scavengers for the treatment of stroke, traumatic brain injury and aging. Ciur. Med. Chem. 2008, 15, 404-414.
  • 36. Spannhoff A., Kim Y. K., Noel J., Raynal M., Gharibyan V., Su M. B., Zhou Y. Y., Li J., Castellano S., Sbardella G.: Histone deacetylase inhibitor activity in royal jelly might facilitate caste switching in bees. EMBO. Rep. 2011, 12, 238-243.
  • 37. Speakman J., Talbot D. A., Selman C., Snart S., McLaren J. S., Redman P., Kroi E., Jackson D. M., Johnson M. S., Brand M. D.: Uncoupled and surviving: individual mice with high metabolism have greater mitochondrial uncoupling and live longer. Aging Cell 2004, 3, 87-95.
  • 38. Spiliotis E., Kinoshita M., Nelson W. J.: A mitotic septin scaffold required for Mammalian chromosome congression and segregation. Science 2005, 307, 1781-1785.
  • 39. Vellai T., Takacs-Vellai K., Zhang Y., Kovacs A. L., Orosz L., Miiiler F.: Genetics: influence of TOR kinase on lifespan in C. elegans. Nature 2003, 426, 620.
  • 40. Whitfield C., Cziko A. M., Robinson G. E.: Gene expression profiles in the brain predict behavior in individual honey bees. Science 2003, 302, 296-299.
  • 41. Wisner A., Dufour E., Messaoudi M., Nejdi A., Marcel A., Ungeheuer M. N., Rougeot C.: Human Opiorphin, a natural antinociceptive modulator of opioid-dependent pathways. Proc. Natl. Acad. Sci. 2006, 103, 17979-17984.
  • 42. Wullschleger S., Loewith R., Hall M. N.: TOR signaling in growth and metabolism. Cell 2006, 124, 471-484.
  • 43. Yamaguchi M.: Role of regucalcin in maintaining cell homeostasis and function. Int. J. Mol. Med. 2005, 15, 371-389.
  • 44. Yamaguchi M.: The role of regucalcin in nuclear regulation of regenerating liver. Biochem. Biophys. Res. Commun. 2000, 276, 1-6.
  • 45. Ye M. H., Zhang K., Wu Y. W., Ding J. T.: Screening of differentially expressed genes induced by water-soluble extracts from pollen during honeybee caste determination. J. Anim. Feed Sci. 2010, 19, 292-306.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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