Геропротективные возможности питания (обзор)

Литература:
1. Dontsov VI, Krutko VN. Biological age as a method for systematic assessment of ontogenetic changes in the state of an organism. Russian Journal of Developmental Biology 2015. 46 (5): 246-53.
2. Gems D. What is an anti-aging treatment? Exp Gerontol 2014; 58: 14-8.
3. Liao CY, Rikke BA, Johnson ТЕ, et al. Genetic variation in the murine lifespan response to dietary restriction: from life extension to life shortening. Aging Cell 2010; 9: 92-5.
4. Katewa SD, Kapahi P. Dietary restriction and aging, 2009. Aging Cell 2010; 9 (2): 105-12.
5. Colman RJ, Anderson RM, Johnson SC, et al. Caloric restriction delays disease onset and mortality in rhesus monkeys. Science 2009; 325: 201-4.
6. Weindruch R, Walford RL. The Retardation of Aging and Disease by Dietary Restriction. Springfield, IL: Charles С Thomas, 1988.
7. Weiss EP, Racette SB, Villareal DT, et al. Improvements in glucose tolerance and insulin action induced by increasing energy expenditure or decreasing energy intake: a randomized controlled trial. Am JClin Nutr2006;84: 1033-42.
8. Lefevre M, Redman LM, Heilbronn LK, et al. Caloric restriction alone and with exercise improves CVD risk in healthy non-obese individuals. Atherosclerosis 2009; 203: 206-13.
9. Brown-Borg HM, Borg KE, Meliska CJ, et al. Dwarf mice and the ageing process. Nature 1996; 384: 33.
10. Holliday R. Food, reproduction and longevity: is the extended lifespan of calorie-restricted animals an evolutionary adaptation? Bio Essays 1989; 10: 125-7.
11. Hoshino S, Kobayashi M, Higami Y. Mechanisms of the anti-aging and prolongevity effects of caloric restriction: evidence from studies of genetically modified animals. Aging (Albany NY) 2018; 10 (9): 2243-51. 12. Yan Y, Finkel T. Autophagy asa regulator of cardiovascular redox homeostasis. Free Radic Biol Med 2017; 109: 108-13.
13. Barbosa MC, Grosso RA, Fader CM. Hallmarks of Aging: An Autophagic Perspective. Front Endocrinol 09 January 2019. URL: https://doi.org/10.3389/fendo. 2018.00790
14. Cruz-JentoftAJ, Baeyens JP, Bauer JM, etal. Sarcopenia: European consensus on definition and diagnosis: Report of the European Working Group on Sarcopenia in Older People. Age Ageing 2010; 39 (4): 412-23.
15. Fan J, Kou X, Jia S, et al. Autophagy as a Potential Target for Sarcopenia. J Cell Physiol 2016; 231: 1450-9.
16. Wohlgemuth SE, Seo AY, Marzetti E, et al. Autophagy and skeletal muscle apoptosis during aging: effects of calorie restriction and lifelong exercise. Exp Gerontology 2010; 45 (2): 138-48.
17. Urn JH, Yun J. Emerging role of mitophagy in human diseases and physiology. BMB Rep 2017; 50: 299-307.
18. Shi R, Guberman M, Kirshenbaum LA. Mitochondrial quality control: the role of mitophagy in aging. Trends Cardiovasc Med 2018; 28: 246-60.
19. Sun N, Yun J, Liu J, et al. Measuring in vivo mitophagy. Mol Cell 2015; 60: 685-96.
20. Barger JL, Walford RL, Weindruch R. The retardation of aging by caloric restriction: its significance in the transgenic era. Exp Gerontol 2003; 38: 1343-51.
21. Ingram DK, de Cabo R. Calorie restriction in rodents: caveats to consider. Ageing Res Rev 2017; 39: 15-28.
22. Brandhorst S, Choi IY, Wei M, et al. A periodic diet that mimics fasting promotes multi-system regeneration, enhanced cognitive performance, and healthspan. Cell Metab 2015; 22 (1): 86-99.
23. O'Hara AM, Shanahan F. The gut flora as a forgotten organ. EMBO Rep 2006; 7 (7): 688-93.
24. Lay C, Rigottier-Gois L, Holmstrom K, et al. Colonic microbiota signatures across five northern European countries. Appl Environ Microbiol 2005; 71 (7): 4153-5.
25. Zoetendal EG, Collier CT, Koike S, et al. Molecular ecological analysis of the gastrointestinal microbiota: a review. J Nutr2004; 134 (2): 465-72.
26. Beckhed F, Ding H, Wang T, et al. The gut microbiota as an environmental factor that regulates fat storage. Proc Natl Acad Sci USA 2004; 101 (44): 15718-23.
27. O'Hara AM, Shanahan F. The gut flora as a forgotten organ. EMBO Rep 2006; 7 (7): 688-93.
28. Goodacre R. Metabolomics of a superorganism. J Nutr 2007137 (Suppl 1): 259S-266S.
29. Sleator RD. The human superorganism — of microbes and men. Med Hypotheses 2010; 74 (2): 214-5.
30. van Duynhoven J, Vaughan ЕЕ, Jacobs DM, et al. Metabolic fate of polyphenols in the human superorganism. Proc Natl Acad Sci USA 2011; 108 (Suppl 1): 4531-8.
31. Bartosch S, Fite A, Macfarlane GT, et al. Characterization of bacterial communities in faeces from healthy elderly volunteers and hospitalized elderly patients by using realtime PCR and effects of antibiotic treatment on the faecal microbiota. Appl Environ Microbiol 2004; 70 (6): 3575-81.
32. Zoetendal EG, Rajilic-Stojanovic M, de Vos WM. High-throughput diversity and functionality analysis of the gastrointestinal tract microbiota. Gut 2008; 57 (11): 1605-15.
33. Arumugam M, Raes J, Pelletier E, et al. Enterotypes of the human gut microbiome. Nature 2011; 473 (7346): 174-80.
34. Vaiserman AM, Koliada AK, Marotta F. Gut microbiota: A player in aging and a target for anti-aging intervention. Ageing Res Rev 2017; 35: 36-45.
35. Claesson MJ, Cusack S, O'Sullivan O, et al. Composition, variability, and temporal stability of the intestinal microbiota of the elderly. Proc Natl Acad Sci USA 2011; 108 (Suppl 1): 4586-91.
36. Tiihonen K, Tynkkynen S, Ouwehand A, et al. The effect of ageing with and without non-steroidal anti-inflammatory drugs on gastrointestinal microbiology and immunology. Br J Nutr 2008; 100(1): 130-7.
37. Rampelli S, Candela M, TurroniS, et al. Functional metagenomic profiling of intestinal microbiome in extreme ageing. Aging (Albany, NY) 2013; 5 (12): 902-12.
38. Patrignani P, Tacconelli S, Bruno A. Gut microbiota, host gene expression, and aging. J Clin Gastroenterol 2014; 48: S28-S31.
39. Biagi E, Nylund L, Candela M, et al. Through ageing, and beyond: gut microbiota and inflammatory status in seniors and centenarians. PLoS One 2010; 5 (5): e10667.
40. Wang F, Huang G, Cai D, et al. Qualitative and semiquantitative analysis of fecal bifidobacterium species in centenarians living in bama, guangxi, china. Curr Microbiol 2015; 71 (1): 143-9.
41. Shen Q, Shang N, Li P. In vitro and in vivo antioxidant activity of bifidobacterium animalis isolated from centenarians. Curr Microbiol Springer-Verlag, 2011; 62 (4): 1097-103.
42. Zeng H, Lazarova DL, Bordonaro M. Mechanisms linking dietary fiber, gut microbiota and colon cancer prevention. World J Gastrointest Oncol Baishideng Publishing Group Inc, 2014; 6 (2): 41-51.
43. Trompette A, Gollwitzer ES, Yadava K, et al. Gut microbiota metabolism of dietary fiber influences allergic airway disease and hematopoiesis. Nat Med 2014; 20 (2): 159-66.
44. Qin J, Li Y, Cai Z, et al. A metagenome-wide association study of gut microbiota in type 2 diabetes. Nature 2012; 490 (7418): 55-60.
45. Forslund K, Hildebrand F, Nielsen T, et al. Disentangling type 2 diabetes and metformin treatment signatures in the human gut microbiota. Nature: Europe PMC Funders 2015; 528 (7581): 262-6.
46. Mathur R, Barlow GM. Obesity and the microbiome. Expert Rev Gastroenterol Hepatol Informa Healthcare 2015; 9 (8): 1087-99.
47. Delzenne NM, Cani PD. Interaction between obesity and the gut microbiota: relevance in nutrition. Annu Rev Nutr Annual Reviews 2011; 31 (1): 15-31.
48. John GK, Mullin GE. The gut microbiome and obesity. Curr Oncol Rep Springer US, 2016; 18 (7): 45.
49. Zhang C, Li S, Yang L, et al. Structural modulation of gut microbiota in life-long calorie-restricted mice. Nat Commun Nature Publishing Group 2013; 4: 2163.
50. Безродный С.Л., тендеров Б. А. Кишечная микробиота как источник новых биомаркеров старения. Вестник восстановительной медицины 2015; 2: 40-7.