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Steve Horvath
Born (1967-10-25) October 25, 1967 (age 57)
Frankfurt, Hessia, Germany
Known fordeveloping the Horvath clock and weighted correlation network analysis.

Steve Horvath is a UCLA professor known for developing the Horvath aging clock, which is a highly accurate molecular biomarker of aging, and for developing weighted correlation network analysis. The recipient of several research awards, including an Allen Distinguished Investigator award,[1] he has studied genomic biomarkers of aging, the aging process, and many age related diseases/conditions.

Background

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Horvath was born in Frankfurt, Germany. He received his Ph.D. in mathematics at the University of North Carolina in 1995 and his Sc.D. in biostatistics at Harvard in 2000. In 2000 Horvath joined the faculty of the University of California, Los Angeles, where he is a Professor of human genetics at the David Geffen School of Medicine at UCLA and of biostatistics at the UCLA Fielding School of Public Health.

Work on the epigenetic clock

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Horvath's development of the DNA methylation based age estimation method known as epigenetic clock was featured in Nature magzine.[2] In 2011 Horvath co-authored the first article that described an age estimation method based on DNA methylation levels from saliva.[3] In 2013 Horvath published a single author article on a multi-tissue age estimation method that applies to call nucleated cells, tissues, and organs.[4] This discovery, known as the Horvath clock, was unexpected because cell types differ in terms of the their DNA methylation patterns and age related DNA methylation changes tend to be tissue specific. In his article, he demonstrated that estimated age, also referred to as DNA methylation age, has the following properties: it is close to zero for embryonic and induced pluripotent stem cells, it correlates with cell passage number; it gives rise to a highly heritable measure of age acceleration; and it is applicable to chimpanzees.[4] Since the Horvath clock allows one to contrast the ages of different tissues from the same individuals, it can be used to identify tissues that show evidence of accelerated age due to disease. Horvath co-authored the first articles demonstrating that DNAm age predicts life-expectancy [5][6][7] and is positively associated with obesity,[8] HIV infection,[9] Alzheimer's disease,[10] Down syndrome,[11] cognitive decline,[12] Huntington's disease,[13] early menopause,[14] Werner syndrome.[15] Using genome-wide association studies, his team identified the first genetic markers (SNPs) that exhibit genome-wide significant associations with epigenetic aging rates.[16][17]

Weighted correlation network analysis

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Horvath and members of his lab developed a widely used systems biological data mining technique known as weighted correlation network analysis.[18][19][20] He published a book on weighted network analysis and genomic applications.[21]

References

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  1. ^ "The Paul G. Allen Frontiers Group Names Five Allen Distinguished Investigators". Cision PR Newswire. June 15, 2017.
  2. ^ Gibbs, WT (2014). "Biomarkers and ageing: The clock-watcher". Nature. 508: 168–170. doi:10.1038/508168a. PMID 24717494.
  3. ^ Bocklandt, S; Lin, W; Sehl, ME; Sánchez, FJ; Sinsheimer, JS; Horvath, S; Vilain, E (2011). "Epigenetic Predictor of Age". PLoS ONE. 6 (6): e14821. doi:10.1371/journal.pone.0014821. PMC 3120753. PMID 21731603.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  4. ^ a b Horvath, S (2013). "DNA methylation age of human tissues and cell types". Genome Biology. 14: R115. doi:10.1186/gb-2013-14-10-r115. PMC 4015143. PMID 24138928.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  5. ^ Marioni, R; Shah, S; McRae, A; Chen, B; Colicino, E; Harris, S; Gibson, J; Henders, A; Redmond, P; Cox, S; Pattie, A; Corley, J; Murphy, L; Martin, N; Montgomery, G; Feinberg, A; Fallin, M; Multhaup, M; Jaffe, A; Joehanes, R; Schwartz, J; Just, A; Lunetta, K; Murabito, JM; Starr, J; Horvath, S; Baccarelli, A; Levy, D; Visscher, P; Wray, N; Deary, I (2015). "DNA methylation age of blood predicts all-cause mortality in later life". Genome Biology. 16 (1): 25. doi:10.1186/s13059-015-0584-6. PMC 4350614. PMID 25633388.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  6. ^ Horvath, S (2015). "Decreased epigenetic age of PBMCs from Italian semi-supercentenarians and their offspring". Aging (Albany NY) (Dec). {{cite journal}}: Cite has empty unknown parameter: |1= (help)
  7. ^ Chen, B; Marioni, ME (2016). "DNA methylation-based measures of biological age: meta-analysis predicting time to death". Aging (US Albany). 8 (9): 1844–1865. doi:10.18632/aging.101020. PMC 5076441. PMID 27690265.
  8. ^ Horvath, S; Erhart, W; Brosch, M; Ammerpohl, O; von Schoenfels, W; Ahrens, M; Heits, N; Bell, JT; Tsai, PC; Spector, TD; Deloukas, P; Siebert, R; Sipos, B; Becker, T; Roecken, C; Schafmayer, C; Hampe, J (2014). "Obesity accelerates epigenetic aging of human liver". Proc Natl Acad Sci U S A. 111: 15538–43. doi:10.1073/pnas.1412759111. PMC 4217403. PMID 25313081.
  9. ^ Horvath, S; Levine, AJ (2015). "HIV-1 infection accelerates age according to the epigenetic clock". J Infect Dis. 212: 1563–73. doi:10.1093/infdis/jiv277. PMC 4621253. PMID 25969563.
  10. ^ Levine, M (2015). "Epigenetic age of the pre-frontal cortex is associated with neuritic plaques, amyloid load, and Alzheimer's disease related cognitive functioning". Aging (Albany NY). 7 (Dec): 1198–211. PMC 4712342. PMID 26684672.
  11. ^ Horvath, S; Garagnani, P; Bacalini, MG; Pirazzini, C; Salvioli, S; Gentilini, D; Di Blasio, AM; Giuliani, C; Tung, S; Vinters, HV; Franceschi, C (Feb 2015). "Accelerated epigenetic aging in Down syndrome". Aging Cell. 14: 491–5. doi:10.1111/acel.12325. PMC 4406678. PMID 25678027.
  12. ^ Marioni, R; Shah, S; McRae, A; Ritchie, S; Muniz-Terrera, GH; SE; Gibson, J; Redmond, P; SR, C; Pattie, A; Corley, J; Taylor, A; Murphy, L; Starr, J; Horvath, S; Visscher, P; Wray, N; Deary, I (2015). "The epigenetic clock is correlated with physical and cognitive fitness in the Lothian Birth Cohort 1936". Int J of Epidemiology. 44: 1388–1396. doi:10.1093/ije/dyu277. PMC 4588858. PMID 25617346.
  13. ^ Horvath, S (2016). "Huntington's disease accelerates epigenetic aging of human brain and disrupts DNA methylation levels". Aging (Albany NY). 8 (7): 1485–512. doi:10.18632/aging.101005. PMC 4993344. PMID 27479945.
  14. ^ Levine, M (2016). "Menopause accelerates biological aging". Proc Natl Acad Sci USA. 113: 201604558. doi:10.1073/pnas.1604558113. PMID 27457926.
  15. ^ Maierhofer, A (2017). "Accelerated epigenetic aging in Werner syndrome". Aging (Albany NY). 9 (4): 1143–1152. doi:10.18632/aging.101217. PMC 5425119. PMID 28377537.{{cite journal}}: CS1 maint: PMC format (link)
  16. ^ Lu, A (2016). "Genetic variants near MLST8 and DHX57 affect the epigenetic age of the cerebellum". Nature Communications. 7: 10561. doi:10.1038/ncomms10561. PMC 4740877. PMID 26830004.
  17. ^ Lu, A (2016). "Genetic architecture of epigenetic and neuronal ageing rates in human brain regions". Nature Communications. 8 (15353). doi:10.1038/ncomms15353. PMC 5454371. PMID 28516910.{{cite journal}}: CS1 maint: PMC format (link)
  18. ^ Zhang B, Horvath S (2005) A General Framework for Weighted Gene Co-Expression Network Analysis", Statistical Applications in Genetics and Molecular Biology: Vol. 4: No. 1, Article 17 PMID 16646834 [1]
  19. ^ Horvath, S; Zhang, B; Carlson, M; Lu, KV; Zhu, S; Felciano, RM; Laurance, MF; Zhao, W; Shu, Q; Lee, Y; Scheck, AC; Liau, LM; Wu, H; Geschwind, DH; Febbo, PG; Kornblum, HI; Cloughesy, TF; Nelson, SF; Mischel, PS (2006). "Analysis of Oncogenic Signaling Networks in Glioblastoma Identifies ASPM as a Novel Molecular Target". PNAS. 103 (46): 17402–17407. doi:10.1073/pnas.0608396103.
  20. ^ Langfelder P, Horvath S (2008) WGCNA: an R package for weighted correlation network analysis. BMC Bioinformatics 2008, 9:559 PMID 19114008 PMC 2631488 BMC Bioinformatics Open access icon
  21. ^ Horvath S (2011). Weighted Network Analysis: Applications in Genomics and Systems Biology. Springer Book. 1st Edition., 2011, XXII, 414 p Hardcover ISBN 978-1-4419-8818-8 website

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Category:Ageing Category:Cancer Category:Gerontology Category:Epigenetics Category:Life extension Category:1967 births Category:Educators from Los Angeles 

Category:Life extension
Category:University of California, Los Angeles faculty
Category:Biogerontologists

Category:Living people


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