A Systematic Review of Antiaging Effects of 23 Traditional Chinese Medicines

Background Aging is an inevitable stage of body development. At the same time, aging is a major cause of cancer, cardiovascular disease, and neurodegenerative diseases. Chinese herbal medicine is a natural substance that can effectively delay aging and is expected to be developed as antiaging drugs in the future. Aim of the review. This paper reviews the antiaging effects of 23 traditional Chinese herbal medicines or their active components. Materials and methods. We reviewed the literature published in the last five years on Chinese herbal medicines or their active ingredients and their antiaging role obtained through the following databases: PubMed, EMBASE, Scopus, and Web of Science. Results A total of 2485 papers were found, and 212 papers were screened after removing the duplicates and reading the titles. Twenty-three studies met the requirements of this review and were included. Among these studies, 13 articles used Caenorhabditis elegans as the animal model, and 10 articles used other animal models or cell lines. Conclusion Chinese herbal medicines or their active components play an antiaging role by regulating genes related to aging through a variety of signaling pathways. Chinese herbal medicines are expected to be developed as antiaging drugs or used in the medical cosmetology industry.


Introduction
Aging is the degenerative change in the whole function of the organism that occurs with increasing age [1]. Aging is an extremely complex biological process, and its mechanisms involve the theory of genetic mutation, telomere loss, somatic mutation, free radical damage, immune disorder, mitochondrial dysfunction, and autophagy dysfunction [2,3]. Cardiovascular disease, cancer, cataracts, osteoporosis, high blood pressure, and neurodegenerative diseases, such as Alzheimer's and Parkinson's diseases, are all linked to aging [4][5][6]. Given the aging population, many countries enter the aging society, which poses a serious threat to th economic development and human life and health. erefore, the aging mechanism and antiaging drugs should be urgently studied [7]. e life cycle of the body involves a variety of signaling pathways and transcription factors, such as insulin and insulin-like (insulin/IGF-1 signaling [IIS]), dietary restriction (DR), gonad (germline signaling [GR]), and mitochondrial (mitochondrial signaling [mTOR]) signaling pathways [8][9][10]. ese signaling pathways are shown to be conserved, which is a positive boost for the search for life-extending drugs and strategies to improve health [11,12].
Studies have shown that the drug therapy can effectively delay aging and has a positive effect on aging-related diseases. Aspirin and metformin are commonly used synthetic antiaging drugs [13,14], but these drugs also have significant side effects. Aspirin causes antiplatelet aggregation, and long-term use can easily cause bleeding, and patients taking metformin will have diarrhea, nausea, abdominal discomfort, and other adverse reactions [15,16]. e discovery and development of antiaging drugs is difficult, and the progress is slow. us, finding a safe and effective antiaging drug is challenging. In recent years, Chinese herbal medicine has been considered a safe and effective antiaging drug with a great potential for development [17].
Herb-drug refers to the substance that is used to prevent and treat diseases and has the function of rehabilitation and health care under the guidance of Chinese medicine theory. [18]. Traditional Chinese medicine (TCM) is beneficial for chronic diseases [19]. For example, ginger has a significant effect on reducing circulating C-reactive protein (CRP) and tumor necrosis factor-alpha (TNF-α) levels, which are systemic inflammatory markers associated with an increased risk of cardiovascular disease [20]. Curcumin may ameliorate hyperandrogenemia and hyperglycemia associated with polycystic ovary syndrome [21]. Moreover, recent studies have found that a variety of TCM and their active components can delay aging and prevent age-related diseases [22,23]. Polysaccharides, monopolysaccharides, or sesquiterpenes in TCM have anti-inflammatory, antitumor, antiviral, acaroid, and sedative effects, which are considered potential sources for the development of new drugs [24,25]. In this paper, the antiaging and antioxidation effects of TCM or their active components are systematically reviewed.

Materials and Methods
e review was conducted following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) statement [26].

Search Strategy.
English publications were searched from PubMed, Scopus, Embase, and Web of Science databases. All databases were limited to the Medical Subject Title Index (MESH/DECS) and available until 30 November 2020. Different combinations of the following keywords were used in the search: "traditional Chinese medicine", "herbal medicine", "TCM", "aging", "anti-aging", "senescence" and "traditional medicine". Besides, we looked at the references of all selected articles to find reports that were not found when we searched for articles.

Study Selection.
By reading the titles and abstracts of the articles, the authors excluded the articles that did not meet the criteria of "Chinese medicine or its active ingredients to delay aging." e antiaging effect of the TCM or its active components was studied in vitro and in vivo, and the possible mechanism was discussed. e following types of articles were excluded from consideration in this review: abstracts, editorial/ letter review articles, meta-analyses, conference proceedings, case reports, patents, human studies, and articles published more than five years ago. e third author had the right to decide on any difference of opinion between the two authors.

Data Extraction.
One author summarized the data in the paper, whereas the other examined the data. Caenorhabditis elegans is a classic model for the study of aging. A pair of data obtained from the experiment with C. elegans as a model is separately summarized in Table 1: types of TCM,  role form, component analysis methods, main ingredients,  dose, life expectancy increased, key genes, and pathways.  Table 2 summarizes the experimental data from other animal models or cell lines: types of TCM, role form action forms, animal models or cell lines, induced way, and pathways.

Methodological Quality Assessment.
Optimized checklists were used to assess the risk and quality of bias of in vivo clinical studies [50,51]. It includes blind administration, blind administration results, average treatment distribution, and other factors.

Data Analysis.
Given the heterogeneity of the study, data were presented in narrative form, and no pooled statistics, sensitivity analysis, meta-analyses were used. Figure 1 shows the search flowchart [52]. A total of 1737 articles are not duplicates (PubMed: 164, EMBASE: 567, Scopus: 483, Web of Science: 523). By reading the titles, we have selected 212 articles related to TCM and antiaging. Finally, through browsing the full text, 23 articles are recorded in this paper. irteen articles are based on C. elegans as animal models, and the other ten articles are based on other animals or cells.

Study Characteristics and Description.
is paper presents a systematic review of 20 studies. irteen papers have used the classic C. elegans as an animal model to explore the effect of TCM or its main components on delaying aging. e other seven papers have studied the effects of TCM or its active components on silkworm, yeast, ultraviolet-(UV-) induced senescence cells, UV-induced skin senescence mice, and other aging models. A variety of TCM or their active components have evident inhibitory effects on aging. e chemical structure of some of the main components of Chinese medicine is shown in Figure 2. Moreover, 14 articles were from China; two, from India; two, from Germany; two, from Iran; three, from Korea; one, from Japan.
Several methods are reported in the antiaging experiments of TCM or its active components with C. elegans as the model. e longevity experiment is used to explore the effect of TCM on prolonging the lifespan of nematodes. e effects of TCM on the health status of nematodes are evaluated by measuring their body length and observing their body swing rate and locomotion ability. e effects of TCM on C. elegans resistance to stress are evaluated using heat, oxidative, and heavy metal stress tests. e fecundity of C. elegans is evaluated by counting the fecundity of nematodes and the sexual dominance rate of nematodes. e antioxidant capacity of TCM is evaluated by detecting the reactive oxygen species (ROS) and antioxidant enzyme levels in nematodes. e expression levels of various proteins and mRNAs are detected by transcriptome sequencing, Western blot, and Q-PCR. In addition, some articles have studied the effect of TCM on aging-related diseases.
In addition to the classic model of C. elegans to study the antiaging effect of TCM, yeast, silkworm, and other natural aging models are used in many experiments. Other aging models include hair dermal papilla (DP) cells, UV-induced hairless mouse skin aging model, UV-induced HaCaTcells and human dermal fibroblasts, H 2 O 2 -induced HUVECs aging, and D-galactose-induced aging mice. Methods include cell viability analysis, Western blot analysis, in situ staining for β-galactosidase activity, total collagen determination, stress tolerance and antioxidant activity, determination of antioxidant enzyme content, and other methods. rough the previously mentioned experimental methods, the evident antiaging effects of Chinese medicine or its active components are proven.

Effect of TCM or Its Active Component on Prolonging
the Life of C. elegans. C. elegans is a multicellular eukaryote that feeds on microorganisms. Nematodes have unique advantages, such as short life cycle, strong reproductive ability, highly homologous genes with mammals [53,54], and easy maintenance in experiments. ese advantages have Evidence-Based Complementary and Alternative Medicine 3 made them different from other animals. As a result, C. elegans has become the classic model of aging research. e principal compounds in the clove essential oil (CEO) are caryophyllene, phenol, and 2-methoxyl-3-(2-propenyl) [27]. According to the US Food and Drug Administration, CEO is generally recognized as safe for use as food additive (U.S. Code of Federal Regulations, 21CFR184.1257). CEO significantly extends the nematode's lifespan and improves its reproductive capacity and health. CEO exerts its antioxidant activity by inducing the expression of sod-3 and gst-4. In addition, CEO induces the daf-16/Forkhead box O (FOXO) nuclear transfer and induces germ cell apoptosis in a cep-1 and daf-16-dependent manner.
Coix seed, a TCM with remarkable medical value, is widely planted in China and Japan. e coix seed oil (CSO) has blood lipid-lowering, antioxidation [55,56] and anticancer effects and can delay the aging of nematode worms [28]. Aging is closely related to environmental stress [57], but CSO can enhance nematode resistance to heat stress, oxidative stress, and heavy metal stress. CSO delays the aging of the nematode and enhances its stress resistance by inducing daf-16 and its downstream genes. Linoleic, oleic, palmitic, and stearic acids in CSO play a key role in this process.
Lonicera japonica (LJ) is also known as Japanese honeysuckle [58], and its main component is chlorogenic acid [29]. Studies have shown that 75% ethanol extract of L. japonica (LJ-E) can prolong the life of nematodes through the insulin/IGF-1 signal transduction, antioxidant, and autophagy pathways. At the same time, LJ-E improves the health status of C. elegans, including the increase in the body swing and pharyngeal pumping frequencies, enhancement of resistance to heat and oxidative stress, and reduction in the ROS level in vivo. In addition, LJ-E and its extract can delay the aging of nematode and prevent Alzheimer's disease.
Glycyrrhizae radix (GR) is usually used in combination with other Chinese herbal medicines to treat peptic ulcers, hepatitis C, and skin diseases [59][60][61][62]. Recent studies have shown that the long-term exposure to GR can prolong the lifespan of nematodes, enhance their motor capacity, and reduce intestinal ROS production [30]. In addition, the GR treatment alters the expression pattern of genes encoding insulin-like signaling pathways, which play a key role in longevity control [11].
Geng Nian Chun (GNC) consists of 12 traditional Chinese medicines (i.e., Radix Rehmanniae, Rhizoma Coptidis, Radix Paeoniae Alba, Rhizoma Anemarrhenae, Cistanche salsa, and Radix Morindae officinalis [63]), which are used to improve functional loss associated with aging. e wild-type nematodes treated with GNC show prolonged survival time under normal and oxidative stress conditions, but the nematodes with daf-16 mutation do not have antioxidant stress effects. is result suggests that the life extension and antioxidant stress effects of GNC are realized through the daf-16/FOXO-dependent pathway. Further study shows that GNC cannot prolong the lifespan of the mutant strains of daf-2, age-1, and daf-16. is result implies that GNC may extend the lifespan of nematodes through the IIS pathway and has a potential use in the development of antiaging drugs [31].
Rehmannia glutinosa (PRG), a TCM with remarkable medical value, has anti-inflammatory, antibacterial, and anticancer activities and can protect cardiovascular function. Recent studies have found that the main component of ripe PRG is a neutral polysaccharide. Among them, the neutral polysaccharide of NPRG, a functional pharmaceutical component, can regulate daf-2 and daf-16 genes through the IIS pathway, thereby enhancing the antistress ability and prolonging the lifespan of nematode worms [32]. Lycium barbarum polysaccharide (LBP) is one of the main active components of L. barbarum. LBP can prolong the lifespan of nematodes, improve their resistance to a harsh environment, enhance their reproductive ability, and ensure the integrity of nematode muscles. e RNAi gene is silenced with mutant nematode strains, and mRNA expression levels are measured. Using mutated nematode strains, RNAi silenced daf-16 genes of N2 and Sir-2.1 mutants, and measuring their mRNA expression levels, it was demonstrated that the life-prolonging activity of LBP is achieved by regulating sir-2.1, daf-12, and daf-16 genes [33].
As a powerful antidote and immune system booster, juniper is often used to treat opportunistic infections [64]. Juniper essential oil (JBEO) extracted from juniper has certain antioxidant and anti-free-radical activities in vitro [65]. In addition, JBEO can prolong the lifespan of nematodes in vivo and improve the resistance of nematodes to oxidative stress and heat stress. Meanwhile, the increased expression of sod-3 (39.49%) and gst-4 (25.13%) is observed. In exploring the mechanism of JBEO life-prolonging activity, conserved transcription factors (i.e., daf-16, skn-1, and hsf-1) are found to be involved in this process [34].
Tambulin is a hydroxy iodic flavanol separated from Zanthoxylum armatum. Aging is a major cause of neurodegenerative diseases, including Huntington's syndrome,

Evidence-Based Complementary and Alternative Medicine
Parkinson's disease, and Alzheimer's disease [6,66]. e lifespan and stress tolerance of nematodes are significantly improved by tambulin treatment, and this phenomenon is accompanied by the remission of aging biomarkers, such as lipofuscin and protein carbonyl. Consistent with the decreased ROS level, the tambulin treatment results in the upregulated mRNA expression of ROS-removing genes, namely, sod-1, sod-3, and ctl-2. Tambulin therapy is shown to be effective in the treatment of Parkinson's disease; decreasing alpha-synuclein levels and lipid accumulation; improving motor behavior; elevating dopamine levels [35].
Previous studies have shown that Hibiscus sabdariffa L. can significantly reduce skin aging markers in female patients [67] and improve short-and long-term memory deficits in elderly albino mice [49]. According to recent studies that have used nematodes as animal models, H. sabdariffa L. extracts (HSE) can remarkably prolong the lifespan of nematodes in vivo and slow down the age-dependent decline in locomotor capacity [36]. is role of HSE depends on key transcription factors daf-16 and skn-1. At the same time, HSE increases the intracellular ROS level, indicating that HSE has prooxidation activity. HSE is resistant to the toxicity induced by the amyloid-beta protein and has a life-prolonging effect.
Polygonum multiflorum extract (PME) can reduce the accumulation of lipofuscin in the liver and brain of mice [49] and has a neuroprotective effect on the degeneration of the substantia nigra striatum. Simultaneously, PME has an antioxidant effect, and nematodes exposed to PME have enhanced antioxidant stress ability. In addition, PME can prolong the average lifespan of C. elegans and reduce the accumulation of ROS by regulating daf-16 and sir-2.1 [37].
At present, the clinical application of Ganoderma lucidum is limited to adjuvant therapy, such as regulating immune response and reducing inflammatory response [68,69], but its pharmacological mechanism remains unclear. Recent studies have shown that G. lucidum can effectively improve the resistance of nematodes to paraquatinduced oxidative stress and heavy metal stress and can extend their lifespan. e protective effect of G. lucidum on nematodes may be exerted through dietary restriction and the mTOR/S6K signaling pathway, whereas the lifespan extension of nematodes is dependent on the germline signaling pathway [38].
Astragalus armor glycoside IV (AS-IV) is isolated from dry Astragalus root and is widely used in the treatment of inflammation, viruses, and even cancer [70]. e lifespan of AS-IV-treated nematodes is prolonged under oxidative stress, heat stress, and normal conditions. At the same time, AS-IV can enhance the activities of superoxide dismutase (SOD) and peroxidase, increase the content of glutamic acid, and decrease the content of glucose in nematodes. Interestingly, the lifespans of sod-1, sod-2, sod-3, sod-4, sod-5, ctl-1, ctl-2, ctl-3, and daf-16 mutants do not change with AS-IV treatment.
ese results indicate that the life-prolonging activity of AS-IV is achieved by improving the age-related functional decline and antioxidant capacity and partially regulating the activity of the IIS pathway [39].

Effect of TCM or Its Active Components on Delaying Senescence in Other Animal Models or Cells.
Aside from the C. elegans model, silkworm, yeast, and other natural aging models with short life cycle are used in antiaging research of TCM or its active ingredients. In addition to the natural aging model, UV-induced senescence cells and hairless mice are commonly used to simulate skin aging; DP cells aging model was used to simulate hair loss; H 2 O 2 -induced HUVECs aging was used to study cardiovascular diseases. In addition, D-galactose-induced aging mice are one of the main means of antiaging drug research. Chinese medicines or their active components have an antiaging effect in the body and a significant inhibitory effect on skin aging.
Snutellaria baicalensis Georgi flowers extract (SFE) is mainly composed of flavonoids that can improve spatial memory ability. Studies have shown that SFE can significantly regulate malondialdehyde (MDA), SOD, and advanced glycation end products and significantly improve liver pathological abnormalities. In addition, SFE significantly increases the levels of D-glutamine and D-glutamate. SFE is speculated to play an antiaging role by regulating the glutamine-glutamate metabolism pathway [40]. e water extract of Rhodiola Rosea can significantly extend the lifespan of silkworms and enhance their resistance to heat stress and hunger without changing their food intake, body weight, or fertility. At the same time, R. rosea treatment increases the activities of glutathione S-transferase and catalase and changes the contents of glutathione and MDA. In addition, the mRNA expression of BmFOXO is significantly increased after R. rosea treatment [41]. BmFOXO is a key transcription factor in the IIS pathway and acts downstream of the IIS pathway [71]. erefore, the IIS may be involved in the prolonged silkworm life induced by R. rosea.
Gentiopicroside (GPS), which is isolated from Gentiana rigescens, is an iridoid glycoside compound with an antiaging effect. GPS can effectively prolong the replication and chronological lifespan of yeast, improve the survival rate of yeast under oxidative stress, and enhance the activities of catalase, SOD, and glutathione peroxidase. In addition, the levels of free GFP in the cytoplasm, free GFP in the mitochondria, and ubiquitin are significantly increased after GPS treatment. Autophagy, especially mitochondrial autophagy, and antioxidant stress may be involved in the GPS-induced life extension [42]. e aqueous extract (WEZ) and volatile oil (VOZ) of Zanthoxylum bungeanum Maxim can alleviate memory impairment and protect against D-galactose-induced hippocampal nerve injury. In addition, WEZ and VOZ enhance the activity of phosphatidylinositol 3-kinase (PI3K)/proteinase B (Akt). e evident therapeutic effect of Z. bungeanum on memory disorders may be related to the activation of the PI3K/Akt signaling pathway [43].
Male mice are induced to senescence after the subcutaneous injection of D-galactose for 42 days. Treatment with Nigella sativa fixed oil reduces the lipid peroxidation in mice. N. sativa fixed oil (0.1 and 0.2 mL/kg) significantly restores the GSH content and reduces Bax/Bcl2 levels. In addition, 0.1 mL/kg N. sativa fixed oil downregulates the expression of caspase-3 protein in the brain and liver of aging mice. N. sativa fixed oil may play an antiaging role in D-galactoseinduced aging models through its antioxidant activity and antiapoptotic effects [44].
UV radiation can produce ROS that damages the skin structure and causes skin aging. Skin aging can be simulated through the UV irradiation of hairless mice [73]. e treatment of pomegranate juice concentrated powder (PCP) can significantly improve skin wrinkling and edema caused by photoaging and significantly increase the content of skin moisture, type I collagen, and hyaluronic acid. In addition. glutathione consumption is inhibited by PCP therapy. Moreover, PCP decreases the expression levels of MMP-1, 9, and 13 and NOX2 mRNAs in the skin of mice exposed to UV. PCP has a good protective effect on skin aging induced by UVB [46].
Agastache rugosa Kuntze, a perennial herb, belongs to the mint family (Lamiaceae). A. rugosa has been shown to contain several kinds of flavonoids, including acacetin-7-O-β-Dglucopyranoside (tilianin), acacetin, linarin, agastachoside, and rosmarinic acid [74]. Hot water extract of Agastache rugosa Kuntze leaf (ARE) can attenuate the UV-B-induced ROS generation and reduce the activity and protein level of ProMMP-2 and -9 induced by UV-B and increase the activity level of total GSH and total SOD reduced by UV-B in HaCaT keratinocytes [47]. e protective effect of ARE on UV-Binduced photoaging in HaCaT keratinocytes may be based on the upregulation of antioxidant components, including total GSH and SOD. DP cells play an important role in the occurrence and development of androgenetic alopecia (AGA) [75]. Aging DP cells may participate in the occurrence of AGA by upregulating the expression of SRD5A2. Plumbago zeylanica (also known as Chitrak) and its components can promote the growth of DP cells and downregulate the expression of SRD5A2 in DP cells [48]. It is speculated that Plumbago zeylanica may be used to treat AGA.
Endothelial cell aging is a major risk factor for inducing cardiovascular disease (CVD) [76,77]. e vascular endothelial dysfunction induced by hydrogen peroxide (H 2 O 2 ) is partly responsible for the development of aging [78,79]. Ginsenoside RB1 (RB1) is the main component of ginsenoside, which has biological activities such as relieving oxidative stress, antiobesity, and antiinflammation [80][81][82]. Studies have shown that RB1 restored the H 2 O 2 -induced reduction in SIRT1 expression and activated AMPK phosphorylation to protect HuVecs from H 2 O 2 -induced senescence [81]. is provides a new way to prevent cardiovascular diseases associated with aging. Figure 3 introduces the methodological features of this review. In all papers, the frequency of TCM treatment and age and strain of experimental animals are described in detail. Experiments using C. elegans and silkworm as animal models do not need the approval of the animal protection evaluation committee, and experiments requiring support have already been approved. e main purpose and findings of the study have been accurately expressed in all articles. Figures 4 and 5 present the year and country of publication of each article in the review. From the perspective of expression years, the number of articles published is increasing yearly. As a traditional treatment method, TCM is gaining new vitality, and its antiaging effect is also attracting increasing attention. In terms of publishing countries, Chinese herbal medicine is widely studied in China, Japan, South Korea, Germany, India, and Iran. Chinese herbal medicine has been widely valued worldwide, and its in-depth research has promoted the development of new drugs based on the natural products of plants.
Sirtuin family is a kind of nicotinamide dinucleotide (NAD+) dependent deacylase, which plays a significant role in preventing diseases and delaying senility [95,96]. Levels of sirtuins, including silencing information regulator 1 Is the age/strain of the animal clearly reported?
Are the main findings of the study clearly described?
Are the people who evaluate the results blind?
route of administration?
Are there adequate reports on the dosage and Has the hypothesis/purpose/target of the study been cleared?
Did the investigator turn a blind eye to the treatment used?
Are the main outcomes to be measured clearly described?
Has the calculation of the sample size been reported?
Did the procedures for animal testing need to be approved by the "Animal Protection Committee"?  Evidence-Based Complementary and Alternative Medicine (SIRT1) and silencing information regulator 6 (SIRT6) but not silencing information regulator 2 (SIRT2), have been reported to decline in senescent cells exposed to oxidants in mouse embryonic fibroblasts, lung epithelial cells, human endothelial cells, and macrophages [97,98]. Sirtuin plays an active role in maintaining gene integrity [96], regulating telomere reverse transcriptase expression [99], promoting DNA repair [100][101][102], changing the expression of senescence related genes, and maintaining stem cell selfrenewal [103,104]. Sirtuin also regulates body longevity. e life span of the budding yeast Saccharomyces cerevisiae, nematodes, Drosophila melanogaster, and mice would be prolonged with the increase of sirtuin levels [105][106][107][108]. Sirtuins were found to interact with all major longevity conserved pathways, such as AMP-activated protein kinase (AMPK), insulin/IGF-1 signaling pathway (IIS), target of rapamycin (TOR), and forkhead box O (FOXO) [109][110][111]. It was found that the expression level of sir-2.1 gene was increased after LBP treatment, and the longevity prolonging effect of LBP on the sir-2.1 mutant was shorter than that of N2.

No
is implies that the lifeextending effect of LBP requires sir-2.1 [33]. In addition, Polygonum multiflorum can prolong the life span of wildtype Caenorhabditis elegans and improve its ability to resist paraquat stress, but not the SIR-2.1-deficient strain [37]. Curcumin pretreatment significantly reduced H 2 O 2induced premature senescence of HUVECs, which was characterized by decreased percentage of senescence associated β-galactosidase positive cells, enhanced cell division ability, and decreased expression of senescence associated protein p21 [112]. SIRT1 short interfering RNA (siRNA) inhibition of SIRT1 can reduce the expression and phosphorylation of eNOS and eliminate the protective effect of curcumin on H 2 O 2 -induced premature senescence.
ese results suggested that curcumin could reduce the premature senility of HUVECs induced by oxidative stress by activating SIRT1. It has been found that ginsenoside can reduce the positive rate of β-galactosidase in H 2 O 2 -induced HUVEC. In addition, RB1 reduced eNOS acetylation and promoted more NO production, accompanied by an increase in SIRT1 expression. Interestingly, after SIRT1 was knocked out, the effect of RB1 on HUVEC aging was weakened [113]. e continuous research on the antiaging effect of TCM and the exploration of the antiaging pathway will be helpful in the research and development of new antiaging drugs.

Conflicts of Interest
e authors declare that they have no conflicts of interest.