. 2017 May 31;7(5):335–404. doi: 10.1007/s13659-017-0135-9

Table 1.

Compounds from natural products with anti-aging activities

CAS	Chemicals		Source	Anti-aging activity and proposed anti-aging mechanism
With anti-aging activities in a variety of aging models
501-36-0	Resveratrol		Polygonum cuspidatum Sieb.et Zucc.	In mice: 4.7% increase in mean lifespan; increasing insulin sensitivity, reducing insulin-like growth factor-1 (IGF-I) levels, increasing AMP-activated protein kinase (AMPK) and peroxisome proliferator-activated receptor-gamma coactivator 1alpha (PGC-1alpha) activity, increasing mitochondrial number, and improving motor function [44, 46–51] In D. melanogaster: extends mean lifespan of females fed the low sugar–high protein diet by ∼15.0%, fed the high-fat diet by ∼10.0%; modulating genetic pathways that can reduce cellular damage [45] In C. elegans: 18.0% increase in mean lifespan; regulating AMPK, SIR-2.1, autophagy, and proteasomal degradation [28, 52, 53] In cell: increasing NAD(+) and the activity of AMPK and Sirt1, inhibiting PDE4, JAK2/STAT3 [89–92] In S. cerevisiae: 70.0% increase in mean lifespan; regulating Sir2 and SNF1 [93, 94] In Nothobranchius guentheri: antioxidant [95]
62-46-4	α-Lipoic acid		Cell metabolite	In SAMP8 mice: improving memory and oxidative stress in extremely old SAMP8 mice, but decreasing lifespan [56] In D. melanogaste: 12.0% increase in mean lifespan and antioxidant [54] In C. elegans: 24.0% increase in mean lifespan and antioxidant, enhancing chemotaxis index [55]
472-61-7	Astaxanthin		Carotenoid	In d-galactose-induced brain aging in rats: antioxidant, upregulating BDNF expression [58, 59] In D. melanogaster: antioxidant [57] In C. elegans: 29.0% increase in mean lifespan and regulating DAF-16 [29]
154-23-4	Catechin		Green tea, cocoa, grapes, and apples	In senescence-accelerated (SAMP10) mice: preventing memory regression and DNA oxidative damage [62] In D. melanogaster: 16.0% increase in mean lifespan and antioxidant [61, 96] In C. elegans: 13.0% increase in mean lifespan and antioxidant, regulating DAF-2, AKT-2, MEV-1, and NHR-8; decreasing insulin-like growth factor-1 [60]
458-37-7	Curcumin		Curcuma longa L.	In C57BL6/N mice: antioxidant, increasing collagen and AGEs [64] In D. melanogaster: 25.8% increase in mean lifespan and antioxidant [65] In C. elegans: 25.0% increase in mean lifespan and antioxidant [63]
3351-86-8	Fucoxanthin		Natural substances in human diet	In hairless mice: lessening UVB-induced epidermal hypertrophy, VEGF, and MMP-13 expression [67] In D. melanogaster: 33.0% increase in mean lifespan and antioxidant [66] In C. elegans: 14.0% increase in mean lifespan and antioxidant [66]
124-20-9	Spermidine		Natural polyamine	In D. melanogaster: 30.0% increase in mean lifespan and autophagy [68] In C. elegans: 15.0% increase in mean lifespan and autophagy [68] In S. cerevisiae: autophagy [68, 69]
With anti-aging activities in two aging models
480-44-4	Acacetin		Naturally occurring flavonoid	In D. melanogaster: decreasing APP protein expression, BACE-1 activity, and Aβ production [97] In C. elegans: 27.3% increase in mean lifespan and upregulating SOD-3 and GST-4 [98]
64-19-7	Acetic acid		Vinegars	In C. elegans: 23.0% increase in mean lifespan and regulating insulin/IGF-1 pathway [99] In S. cerevisiae: stimulating growth signaling pathways, increasing oxidative stress and replication stress [100]
1005344-44-4	Antcin M		Antrodia cinnamomea	In cell: antioxidant, regulating Nrf2 and SIRT-1 [101] In C. elegans from oxidative stress: ~10.0% increase in mean lifespan and antioxidant [101]
306-60-5	Agmatine		Generated by arginine decarboxylase	In male sprague–dawley rats: suppressing age-related elevation in nitric oxide synthase activity in the dentate gyrus of the hippocampus and prefrontal cortex [102] In C. elegans: 16.0% increase in mean lifespan and needs further research [103]
328-50-7	α-Ketoglutarate		Tricarboxylic acid cycle intermediate	In mice: decreasing TBARS level and the activity of superoxide dismutase, increasing glutathione peroxidase activity [104] In C. elegans: 50.0% increase in mean lifespan and inhibiting ATP synthase and TOR signaling [105]
491-67-8	Baicalein		Scutellaria baicalensis Lamiaceae	In C. elegans: 24.0% increase in mean lifespan and antioxidant, regulating SKN-1 [106] In PC12 cell: suppressing mitochondria dysfunction and apoptosis [107]
107-43-7	Betaine		Nitrogen containing metabolite	In aged rats: upregulating IKK/MAPKs, attenuating NF-κB activation [108, 109] In C. elegans: 9.0% increase in mean lifespan and needs further research [103]
331-39-5	Caffeic acid		Tomatoes, carrots, strawberries, blueberries and wheat	In Sprague–Dawley rats and intra-cerebroventricular streptozotocin induced experimental dementia in rats: antioxidant, restoring cholinergic functions [110, 111] In C. elegans: 11.0% increase in mean lifespan and regulating OSR-1, SEK-1, SIR-2.1, UNC-43, and DAF-16 [112]
305-84-0	Carnosine		Endogenous dipeptide	In aged rats: preventing oxidative stress and apoptosis [113, 114] In D. melanogaster: 26.0% increase in mean lifespan and antioxidant [115, 116]
2415-24-9	Catalpol		Rehmannia glutinosa	In senescent mice induced by d-galactose: improving cholinergic function, reducing inflammatory cytokines; In rats: rebalancing E2 and P4 levels in aged rats [117, 118] In C. elegans: 28.5% increase in mean lifespan and antioxidant, regulating SKN-1/Nrf and DAF-16 [119]
327-97-9	Chlorogenic acid		Coffee and tea	In d-galactose-induced mice: antioxidant, reducing tumour necrosis factor-α (TNF-α) and interleukin-6 (IL-6) protein levels [120] In C. elegans: 20.1% increase in mean lifespan and antioxidant, regulating IIS pathway [121]
303-98-0	Coenzyme Q10		Mitochondrial respiratory chain component	In mice: ameliorating age-related impairment, reducing protein oxidation [122] In C. elegans: 18.0% increase in mean lifespan and scavenging reactive oxygen species [123]
3416-24-8	d-Glucosamine		Hexosamine pathway	In mice: 6.0% increase in mean lifespan; enhancing expression of several murine amino-acid transporters, increasing amino-acid catabolism [124] In C. elegans: 11.0% increase in mean lifespan and mimicking a low-carbohydrate diet by regulating AMPK and SKN-1 [124]
75-18-3	Dimethyl sulfide		Metabolite of marine algae or fermentative bacteria	In D. melanogaster: 24.2% increase in mean lifespan and antioxidant [17] In C. elegans: 24.3% increase in mean lifespan and antioxidant [17]
490-46-0	(−)-Epicatechin		Cocoa	In obese diabetic mice: antioxidant, improving skeletal muscle stress output, reducing systematic inflammation and serum LDL cholesterol [61] In D. melanogaster: ~8.0% increase in mean lifespan and needs further research [61]
989-51-5	Epigallo-catechin gallate		Tea polyphenols	In d-galactose-induced mice: increasing oxidative stress and the expression of EGFR proteins [125] In C. elegans: 13.0% increase in mean lifespan and antioxidant, regulating IIS pathway [126]
149-91-7	Gallic acid		Beverages (red wines and green teas), plant leaves (beriberry)	In senescence accelerated mice: antioxidant [127] In C. elegans: 25.0% increase in mean lifespan and antioxidant [27]
527-07-1	Gluconate		Sugars metabolite	In D. melanogaster: 22.0% increase in mean lifespan and antioxidant [128] In lacking nitrogen on C. elegans: 16.0% increase in mean lifespan and antioxidant [103]
56-81-5	Glycerol		Sugars metabolite	In lacking nitrogen on C. elegans: 21.0% increase in mean lifespan and needs further research [103] In rotifer: 50.0% increase in mean lifespan; increasing resistance to starvation, heat, oxidation, and osmotic stress, but not UV stress [129]
520-26-3	Hesperidin		Citrus genus	In Murine model of sepsis: antioxidant [130] In S. cerevisiae: 37.0% increase in mean lifespan and antioxidant, regulating Sir2, UTH1 [131]
489-32-7	Icariin		Herba epimedii	In mice: inducting antioxidant protein superoxide dismutase (SOD) activity, decreasing oxidative marker malondialdehyde (MDA) [132] In C. elegans: 20.7% increase in mean lifespan and regulating IIS pathway [133]
74-79-3	Arginine		Amino acid	In C. elegans: 27.0% increase in oxidative stress; 370% in heat stress and antioxidant, regulating insulin/IGF signaling pathway [103, 134] In Megalobrama amblycephala: antioxidant [134]
50-21-5	Lactate		Metabolite	In D. melanogaster: 15.0% increase in mean lifespan and antioxidant [128] In C. elegans: 6.0% increase in mean lifespan and antioxidant [103]
500-38-9	Nordi-hydroguaiaretic acid		Creosote plant (Larrea tridentata: Zygophyllaceae)	In mice:12.0% increase in mean lifespan; decreasing the absorption or increasing the utilization of calories [135–138] In Mosquito: 64.0% increase in mean lifespan and needs further research [137]
508-02-1	Oleanolic acid		Olea europaea, Viscum album L., and Aralia chinensis L.	In d-galactose-induced mice: anti-oxidative, anti-glycative, and anti-apoptotic [139] In C. elegans: 16.6% increase in mean lifespan and antioxidant, regulating DAF-16 [140]
851983-55-6	Oligonol		Grape seed or lychee fruit	In mice: Regulating AMPK, SIRT1, autophagy, and increasing cell proliferation [141, 142] In C. elegans: regulating AMPK and autophagy [141]
27208-80-6	Polydatin		Grape juice	In mice: anti-oxidative, anti-inflammatory, and anti-apoptotic [143] In C. elegans: 30.0% increase in mean lifespan and regulating DAF-2, SIR-2.1, SKN-1, SOD-3, and DAF-16 [144]
537-15-5	Rosmarinic acid		Subfamily Nepetoideae of the Lamiaceae	In aging mice: antioxidant [145] In C. elegans: 10.0% increase in mean lifespan and regulating SIR-2.1, OSR-1, SEK-1, UNC-43, and DAF-16 [112]
607-80-7	Sesamin		Sesame seeds	In D. melanogaster: 12.0% increase in mean lifespan and antioxidant [146] In C. elegans:14.0% increase in mean lifespan and regulating DAF-2, SKN-1, PMK-1, and DAF-16 [147]
36062-04-1	Tetra-hydrocurcumin		Biotransformed metabolite of curcumin contained in turmeric of Indian curry	In mice: 12.0% increase in mean lifespan; attenuating oxidative stress, hypertension, vascular dysfunction, and baroreflex dysfunction [148–151] In D. melanogaster: ~28.0% increase in mean lifespan and regulating Sir2 and FoxO [152]
1143-70-0	Urolithin A		Pomegranate fruit, nuts and berries	In mouse models of age-related decline of muscle function: improving exercise capacity [153] In C. elegans: 45.4% increase in mean lifespan and regulating mitochondrial function, mitophagy [153]
3681-93-4	Vitexin		Vigna angularis	In d-galactose-aged mice: antioxidant [154] In C. elegans: 17.0% increase in mean lifespan and antioxidant [155]
With anti-aging activities in rats or mice
118-00-3	Guanosine		Endogenous nucleoside	In Wistar rats: antioxidant [156]
70579-26-9	Porphyra-334		Red alga Porphyra rosengurttii	In mice skin: antioxidant, Hsp70 [157]
73112-73-9	Shinorine		Red alga Porphyra rosengurttii	In mice skin: antioxidant, Hsp70 [157]
70363-87-0	Sargaquinoic acid		Sargassum sagamianum	In mice skin: inducing apoptosis [158]
70363-89-2	Sargachromenol		Sargassum sagamianum	In mice skin: inducing apoptosis [158]
1094-61-7	β-Nicotinamide mononucleotide		Turnover of the oxidized form of nicotinamide adenine dinucleotide (NAD⁺)	In rats: increasing NAD⁺ level [159]
1339070-29-9	TA-65		Root of Astragalus membranaceus	In mice: activating telomerase [160]
34157-83-0	Celastrol		Traditional Chinese medicinal herbs of the Celastraceae family	In transgenic mouse model of amyotrophic lateral sclerosis: 13.0% increase in mean lifespan and regulating HSP70, blocking neuronal cell death [161]
57-00-1	Creatine		Natural ergogenic compound	In mice: 9.0% increase in mean lifespan and upregulating genes implicated in neuronal growth, neuroprotection, and learning [162]
42553-65-1	Crocin		Kashmiri saffron (Crocus sativus)	In mice: 44.0% increase in mean lifespan and impacting on hematological parameters [163]
61276-17-3	Acteoside		Roots of Incarvillea younghusbandii Sprague	In senescent mouse model induced by a combination of d-gal and AlCl3: decreasing nitric oxide, the activity of nitric oxide synthase and the expression of caspase-3 [164]
11096-26-7	Erythropoietin	Glycoprotein	Glycoprotein hormone	In rats: antioxidant, regulating ERK/Nrf2-ARE [165]
62499-27-8	Gastrodin		A number of plants and herbs	In vascular dementia rats induced by chronic ischemia: antioxidant, regulating ADH7, GPX2, GPX3 and NFE2L2 [166]
22427-39-0	Ginsenoside Rg1		Panax ginseng	In d-galactose-induced mice: antioxidant, regulating the level of proinflammatory cytokines and telomerase system, activating the Wnt/β-catenin signaling [167, 168]
With anti-aging activities in Drosophila melanogaster
87-89-8	Chiro-inositol		Inositol family	16.7% increase in mean lifespan and antioxidant, regulating dFOXO [169]
526-95-4	Gluconic acid		Glucose catabolism	22.0% increase in mean lifespan and antioxidant [128]
526-95-4	Glycoside acteoside		Roots of Incarvillea younghusbandii Sprague	15.0% increase in mean lifespan and antioxidant [170]
127-40-2	Lutein		Major carotenoids in most fruits and vegetables	11.0% increase in mean lifespan and antioxidant [171]
1004313-10-3	S,S-Trolox-carnosine		Trolox acylated derivatives	36.0% increase in mean lifespan and antioxidant [116]
4670-05-7	Theaflavins		Black tea	10.0% increase in mean lifespan and antioxidant [172]
353-09-3	β-Guani-dinopropionic acid		Metabolites	13.0% in female, 90% in male increase in mean lifespan and regulating AMPK-Atg1-autophagy signaling [173]
19545-26-7	Wortmannin		Penicillium funiculosum	5.0% increase in mean lifespan and inhibiting PI3K [174]
139-85-5	3,4-Dihydro-xybenzaldehyde		Sasa senanensis leaves	23.0% increase in mean lifespan and inhibiting the 2-oxoglutarate binding sites of prolyl 4-hydroxylase [175]
With anti-aging activities in Caenorhabditis elegans
57-91-0	β-Estradiol		Hormone	7.0% increase in mean lifespan and antioxidant [176]
1406-65-1	Chlorophyll		Green vegetables	25.0% increase in mean lifespan and antioxidant [177]
730-08-5	Dipeptide Tyr-Ala		Hydrolyzed maize protein	12.4% increase in mean lifespan and antioxidant [178]
934822-64-7	Ferulsinaic acid		Sesquiterpene coumarins from the genus Ferula	20.0% increase in mean lifespan and antioxidant [179]
446-72-0	Genistein		Vigna angularis	27.9% increase in mean lifespan and antioxidant [180, 181]
446-72-0	Quercetin 3-O-β-d-glucopyranoside-(4 → 1)-β-d-glucopyranoside		Onion	12.4% increase in mean lifespan and antioxidant [182]
69-72-7	Salicylic acid		Plant hormone	14.0% increase in mean lifespan and antioxidant [183]
72514-90-0	Specioside		Stereospermum suaveolens	15.5% increase in mean lifespan and antioxidant [184]
480-18-2	Taxifolin		Citrus fruits and onion	51.0% increase in mean lifespan and antioxidant [185]
3081-61-6	Theanine		Camellia sinensis	~5.0% increase in mean lifespan and antioxidant [186]
6829-55-6	Tocotrienols		Vitamin E members	~20.0% increase in mean lifespan and antioxidant [187]
53188-07-1	Trolox		Vitamin E analog	31.0% increase in mean lifespan and antioxidant [185]
528-48-3	Fisetin		Apples, onions and grapes and many more herbal edibles	6.0% increase in mean lifespan of thermal stress and antioxidant, regulating DAF-16 [188]
215112-16-6	4-Hydroxy-E-globularinin		Premna integrifolia	18.8% increase in mean lifespan and antioxidant, regulating DAF-16 [189]
521-48-2	Iso-xanthohumol		Humulus lupulus L.	10.2% increase in mean lifespan and antioxidant, regulating DAF-16 [190]
520-18-3	Kaempferol		Apples, onions and grapes and many more herbal edibles	10.0% increase in mean lifespan and antioxidant,regulating DAF-16 [188]
117-39-5	Quercetin		Onions, apples, and broccoli as well as in red wine, tea, and extracts of Ginkgo biloba	15.0% increase in mean lifespan and antioxidant, regulating DAF-16 [191]
50932-19-9	Verminoside		Stereospermum suaveolens	20.8% increase in mean lifespan and antioxidant, regulating DAF-16 [192]
113558-15-9	Icariside II		Icariin active metabolite	20.0% increase in mean lifespan and regulating IIS signaling [133]
99-20-7	Trehalose		Disaccharide of glucose	32.0% increase in mean lifespan and regulating IIS signaling [193]
32911-62-9	Withanolide A		Ayurvedic	29.7% increase in mean lifespan and regulating IIS pathway and neural activity [194]
501-94-0	Tyrosol		Extra virgin olive oil	10.8% increase in mean lifespan and regulating IIS pathway and heat shock response [195–197]
4339-71-3	Piceatannol		Grapes and white tea	~18.3% increase in mean lifespan and regulating IIS pathway and SIR-2.1 [198]
52-89-1	Cysteine		Amino acids	16.0% increase in mean lifespan and regulating AMPK and DAF-16 [103]
6537-80-0	Chicoric acid		Caffeoyl derivative	21.0% increase in mean lifespan and regulating AMPK [199]
328-42-7	Oxaloacetate		Citric acid cycle metabolite	25.0% increase in mean lifespan and regulating AMPK [200]
29700-22-9	Oxy-resveratrol		Isomer of hydroxylated resveratrol	31.1% increase in mean lifespan and regulating calorie restriction, AMPK, and SIR-2.1 [201]
29700-22-9	β-Dihydro-agarofuran-type sesquiterpenes		Seeds of Celastrus monospermus	38.0% increase in mean lifespan and rapamycin mimetics [202]
13095-47-1	(R)-2-Hydro-xyglutarate		Oncometabolite	43.0% increase in mean lifespan and inhibiting ATP synthase and mTOR signaling [203]
13095-48-2	(S)-2-Hydroxyglutarate		Oncometabolite	32.0% increase in mean lifespan and inhibiting ATP synthase and mTOR signaling [203]
765-01-5	10-Hydroxy-2-decenoic acid		Major lipid component of Royal Jelly	10.0% increase in mean lifespan and regulating dietary restriction and mTOR signaling [204]
	Ascr#2		Pheromone	14.0% increase in mean lifespan and regulating SIR-2.1 [205]
	Ascr#3		Pheromone	14.0% increase in mean lifespan and regulating SIR-2.1 [205]
1740-19-8	Dehydro-abietic acid		P. densiflora, P. sylvestris, Abies grandis	15.5% increase in mean lifespan and regulating SIR-2.1 [206]
7783-06-4	Hydrogen sulfide		Naturally produced in animal cells	74.0% increase in mean lifespan and antioxidant, regulating SIR-2.1 [207, 208]
932-30-9	Salicylamine		Phenolic amines	56.0% increase in mean lifespan and regulating SIR-2.1 and ETS-7 [209]
481-39-0	Juglone		Roots, leaves, woods and fruits of Juglandaceae walnut trees	29.0% increase in mean lifespan and regulating SIR-2.1 and DAF-16 [210]
481-39-0	Deutero-haemin-AlaHisThrValGluLys	Peptides	Porphyrin-peptide	19.1% increase in mean lifespan and regulating SIR-2.1and DAF-16 [211]
53-84-9	Nicotinamide adenine dinucleotide		Tricarboxylic acid cycle intermediate	15.0% increase in mean lifespan and regulating SIR-2.1 and DAF-16 [212]
149-61-1	Malate		Tricarboylic acid (TCA) cycle metabolite	14.0% increase in mean lifespan and regulating dietary restriction, SIR-2.1, and DAF-16 [213]
70-47-3	Asparagine		Amino acid	5.0% increase in mean lifespan and regulating SKN-1 [103]
2050-87-5	Diallyl trisulfide		Garlic	12.6% increase in mean lifespan and regulating SKN-1 [214]
481-42-5	Plumbagin		Plumbago zeylanica L.	15.0% increase in mean lifespan and regulating SKN-1 [215]
77-59-8	Tomatidine		Unripe tomato fruits, leaves and stems	7.0% increase in mean lifespan and regulating SKN-1/Nrf2 pathway, mitophagy [216]
21593-77-1	S-Allylcysteine		Allium sativum L.	17.0% increase in mean lifespan and antioxidant, regulating SKN-1 [217]
2281-22-3	S-Allylmercapto-cysteine		Allium sativum L.	20.9% increase in mean lifespan and antioxidant, regulating SKN-1 [217]
61-90-5	Leucine		Amino acids	16.0% increase in mean lifespan and regulating SKN-1and DAF-16 [103]
62333-08-8	Isolappaol A		A. lappa seeds	11.0% increase in mean lifespan and regulating JNK-1 and DAF-16 [218]
64855-00-1	Lappaol C		A. lappa seeds	12.0% increase in mean lifespan and regulating JNK-1 and DAF-16 [218]
69394-17-8	Lappaol F		A. lappa seeds	13.0% increase in mean lifespan and regulating JNK-1 and DAF-16 [218]
580-72-3	Matairesinol		Arctium lappa	25.0% increase in mean lifespan and regulating JNK-1 and DAF-16 [218]
7770-78-7	Arctigenin		Arctium lappa	14.0% increase in mean lifespan and antioxidant, regulating JNK-1 and DAF-16 [218]
20362-31-6	Arctiin		Arctium lappa	15.0% increase in mean lifespan and antioxidant, regulating JNK-1 and DAF-16 [218]
484-68-4	Pinitol		Fine wood, alfalfa, and legumes	13.0% increase in mean lifespan and regulating JNK, S6K, and DAF-16 [169]
56-41-7	Alanine		Amino acid	11.0% increase in mean lifespan and regulating AAK-2, SKN-1, and DAF-16 [103]
56-87-1	Lysine		Amino acids	8.0% increase in mean lifespan and regulating AAK-2, SKN-1, and DAF-16 [103]
338-69-2	d-Alanine		Amino acids	16.0% increase in mean lifespan and regulating AAK-2, SIR-2.1, and DAF-16 [103]
56-85-9	Glutamine		Amino acids	16.0% increase in mean lifespan and regulating EAT-2, AAK-2, and SKN-1 [103]
87-44-5	β-Caryophyllene		Edible plants	22.0% increase in mean lifespan and regulating SIR-2.1, SKN-1 and DAF-16 [219]
60-18-4	Tyrosine		Amino acids	10.0% increase in mean lifespan and regulating SIR-2.1, SKN-1, and DAF-16 [103]
107-95-9	β-Alanine		Amino acid	13.0% increase in mean lifespan and regulating AAK-2, SIR-2.1, SKN-1, and DAF-16 [103]
107-95-9	Acacetin 7-O-α-l-rhamnopyranosyl (1–2) β-d-xylopyranoside		Premna integrifolia	39.0% increase in mean lifespan and regulating EAT-2, SIR-2.1, SKN-1, HSF-1, MEV-1, and DAF-16 [220]
15502-74-6	Arsenite		Natural and anthropogenic sources	(10 μM) 10.0% increase in mean lifespan, (>100 μM) 12.0% decrease and antioxidant, regulating SKN-1, MTL-2, TIN-9, and DAF-16 [221, 222]
625-72-9	d-β-Hydroxybutyrate		Ketone body	26.0% increase in mean lifespan and regulating AAK-2, SIR-2.1, SKN-1, and DAF-16; inhibiting histone deacetylase [223]
71-00-1	Histidine		Amino acids	12.0% increase in mean lifespan and regulating EAT-2, AAK-2, SIR-2.1, SKN-1, BEC-1, HIF-1, GAS-1, IFE-2, GCN-2, and DAF-16 [103]
37159-97-0	Proline		Amino acids	19.0% increase in mean lifespan and regulating EAT-2, AAK-2, SIR-2.1, SKN-1, BEC-1, and DAF-16 [103]
56-45-1	Serine		Amino acids	22.0% increase in mean lifespan and regulating EAT-2, AAK-2, SIR-2.1, SKN-1, HIF-1, BEC-1, and DAF-16 [103]
73-22-3	Tryptophan		Amino acids	14.0% increase in mean lifespan and regulating EAT-2, AAK-2, SIR-2.1, SKN-1, BEC-1, GCN-2, and DAF-16 [103]
1405-87-4	Bacitracin		Bacillus subtilisvar Tracy	59.0% increase in mean lifespan and regulating CBP-1, improving proteotoxcity [224]
142-42-7	Fumarate		Tricarboxylic acid (TCA) cycle metabolite	16.0% increase in mean lifespan and increasing the amount of oxidized NAD and FAD cofactors [213]
63-68-3	Methionine		Amino acids	14.0% increase in mean lifespan and regulating mitochondrial unfolded protein response [103]
62-75-9	N-Nitrosodimethylamine		Ubiquitously distributed organic xenobiotic compounds	6.0% increase in mean lifespan and reducing transcription of many stress response genes [225]
25166-14-7	2,3-Dehydrosily-bin A/B		Potential active components of silymarin	16.1% increase in mean lifespan and antioxidant, regulating FGT-1, improving proteotoxic stress [226]
476-66-4	Ellagic acid		Strawberry and raspberry	~10.0% increase in mean lifespan and antioxidant, CR mimetics, antimicrobial [27]
1259-86-5	Glau-carubinone		Different species of the tropical plant family Simaroubaceae	~80.0% increase in mean lifespan and promoting mitochondrial metabolism, reducing body fat [227]
529-44-2	Myricetin		Tea, different vegetables, onions, berries, grapes and medical plants	34.3% increase in mean lifespan and regulating DAF-16; enhanced quality of life during aging [63, 228]
106758-54-7	Otophylloside B		Cynanchum otophyllum	11.3% increase in mean lifespan and regulating DAF-2, SIR-2.1, CLK-1, and DAF-16 [229]
14937-32-7	Pentagalloyl glucose		Eucalyptus leaves	18.0% increase in mean lifespan and regulating dietary restriction, IIS pathway, SIR-2.1 and mitochondrial electron transport chain [230]
7512-17-6	N-Acetyl-glucosamine		Hexosamine Pathway Metabolite	50.0% increase in mean lifespan and enhancing autophagy, ER-associated protein degradation, and proteasomal activity [231]
7512-17-6	Quercetin 3′-O-β-d-glucopyranoside		Onion	20.9% increase in mean lifespan and regulating DAF-2, OLD-1, OSR-1,and AEK-1 [182]
50-70-4	Sorbitol		S. cerevisiae	35.0% increase in mean lifespan and regulating DR and osmotic response [232]
1401-55-4	Tannic acid		Grapes and green tea	19.0% increase in mean lifespan and regulating TGF-β, p38 MAPK pathways, and DAF-12 [233, 234]
77-92-9	Citrate		Tricarboxylic acid cycle intermediate	13.0% increase in mean lifespan and inducing ER stress response [103]
107-35-7	Taurine		Nitrogen containing metabolites	11.0% increase in mean lifespan and inducing ER stress response [103]
38748-32-2	Triptolide		Tripterygium wilfordii	20.1% increase in mean lifespan and antioxidant, regulating HSP16.2 and SOD-3 [235]
67-97-0	Vitamin D3		Vitamins	39.0% increase in mean lifespan and regulating SKN-1, IRE-1, XBP-1, DAF-12, and proteostasis [236]
57-88-5	Cholesterol		Cyclo-pentanoper-hydro-phenanthrene ring	Regulating cholesterol-binding protein NSBP-1and DAF-16 [237]
949004-12-0	Dafachronic acid		Bile acid-like steroid	17.0% increase in mean lifespan and “antiaging” in the germ-line longevity pathway [238]
145-13-1	Pregnenolone		Hormonal steroids	20.0% increase in mean lifespan and relating to germline-defective regulated longevity [239]
1315285-41-6	Royalactin	Glycoprotein	Royal jelly	34.0% increase in mean lifespan and regulating EGF signaling [240]
104594-70-9	Caffeic acid phenethyl ester		Propolis	9.0% increase in mean lifespan and regulating DAF-16 [241]
64-17-5	Ethanol		Metabolites	Serving as a carbon and energy source and/or by inducing a stress response [242]
64-17-5	N-γ-(l-Glutamyl)-l-seleno-methionine		Garlic as and primary metabolic product of SeMet	Antioxidant, regulating sele-noprotein TRXR-1 [243]
74-81-7	Caprylate		Metabolites	In lacking nitrogen on C. elegans: 7.0% increase in mean lifespan and needs further research [51]
6893-26-1	d-Glutamate		Amino acids	18.0–114.0% increase in mean lifespan and needs more research [103]
10257-28-0	Galact-opyranose		Sugars metabolites	In lacking nitrogen on C. elegans: 6.0% increase in mean lifespan and needs more research [103]
56-40-6	Glycine		Amino acids	10.0% increase in mean lifespan and needs more research [103]
6027-13-0	Homocysteine		Nitrogen containing metabolites	13.0% increase in mean lifespan and needs more research [103]
87-89-8	Inositol		Metabolites	In lacking nitrogen on C. elegans: 17.0% increase in mean lifespan and needs more research [103]
320-77-4	Isocitrate		TCA cycle intermediate	13.0% increase in mean lifespan and needs more research [103]
7004-09-3	Isoleucine		Amino acids	3.0% increase in mean lifespan and needs more research [103]
70-26-8	Ornithine		Amino acids	8.0% increase in mean lifespan and needs more research [103]
138-08-9	Phosphoenol-pyruvate		Metabolites	In lacking nitrogen on C. elegans: 12.0% increase in mean lifespan and needs more research [103]
98-98-6	Picolinic acid		Endogenous metabolite of the kynurenine pathway	7.0% increase in mean lifespan and needs further research [103]
10257-32-6	Ribopyranose		Sugars metabolites	In lacking nitrogen on C. elegans: 9.0% increase in mean lifespan and needs more research [103]
56-14-4	Succinate		TCA cycle intermediates	11.0% increase in mean lifespan and needs more research [103]
72-19-5	Threonine		Amino acids	8.0% increase in mean lifespan and needs more research [103]
72-18-4	Valine		Amino acids	13.0% increase in mean lifespan and needs more research [103]
58-86-6	Xylose		Sugars metabolites	In lacking nitrogen on C. elegans: 6.0% increase in mean lifespan and needs more research [103]
With anti-aging activities in other aging models
32619-42-4	Oleuropein		Olea europea leaf	In cell: 15.0% increase in mean lifespan; and increasing proteasome-mediated degradation rates, retaining proteasome function and Nrf2/heme oxygenase-1 pathway [244]
84605-18-5	Cyclo-astragenol		Astragalus membranaceus	In PC12 cells and primary neurons: inducing telomerase activity and cAMP response element binding (CREB) [245]
528-58-5	Cyanidin		Fruits and vegetables	In cell: antioxidant, decreasing expressions of nuclear factor-kappaB, cyclooxygenase-2, and nitric oxide synthase [246]
88095-77-6	Dieckol		Eckloina cava	In radiation-induced cell damages: protecting effects on UV-B [247]
1229519-12-3	HDTIC-1		Herb Astragalus membranaceus var. mongholicus	In cell: antioxidant, improving proliferation, inhibiting glycation end product formation, slowing down telomere shortening rate [248, 249]
1229519-13-4	HDTIC-2		Herb Astragalus membranaceus var. mongholicus	In cell: antioxidant, improving proliferation, inhibiting glycation end product formation, slowing down telomere shortening rate [248, 249]
87798-94-5	Quercetin caprylate		Quercetin derivative	In cell: antioxidant, proteasome activator [250]
501334-35-6	Collemin A		Lichenized ascomycete Collema cristatum	In cell and human skin: preventing pyrimidine dimer formation and UV-B induced erythema [251]
87425-34-1	Nolinospiroside F		Ophiopogon japonicus	In S. cerevisiae: 23.0% increase in mean lifespan and antioxidant [252, 253]
57103-57-8	(−)-Glyceollin I		Soybeans	In S. cerevisiae: calorie restriction mimetic [254]
487-52-5	Butein		Toxicodendron vernicifluum	In S cerevisia: 31.0% increase in mean lifespan and regulating Sir2 [255]
1341-23-7	Nicotinamide riboside		NAD(+) precursor	In S. cerevisiae: 20.0% increase in mean lifespan and increasing net NAD(+) synthesis and Sir2 function [252, 253]
434-13-9	Lithocholic acid		Major bile acids excreted by mammals	In S. cerevisiae: 100.0% increase in mean lifespan and modulating housekeeping longevity assurance processes [256, 257]
57-94-3	Curare		Chondrodendron tomentosum, Menispermaceae or Strychnos	In Asplanchna brightwelli: 34.0% increase in mean lifespan and needs further research [258]