Urolithin A(UA)is a metabolic compound generated during the biotransformation of ellagitannins by the intestinal bacteria.The physiologically relevant micromolar concentrations of UA,achieved in the plasma and gastroi...Urolithin A(UA)is a metabolic compound generated during the biotransformation of ellagitannins by the intestinal bacteria.The physiologically relevant micromolar concentrations of UA,achieved in the plasma and gastrointestinal tract(GI)after consumption of its dietary precursors,have been revealed to offer GI protection.The health benefit has been demonstrated to be principally related to anticancer and anti-inflammatory effects.UA has been shown to possess the capability to regulate multiple tumor and inflammatory signaling pathways and to modulate enzyme activity,including those involved in carcinogen biotransformation and antioxidant defense.The purpose of this review is to gather evidence from both in vitro and in vivo studies showing the potential of UA in GI protection alongside suggested mechanisms by which UA can protect against cancer and inflammatory diseases of the digestive tract.The data presented herein,covering both studies on the pure compound and in vivo generated UA form its natural precursor,support the potential of this metabolite in treatment interventions against GI ailments.展开更多
Urolithin A(UA)is a natural metabolite produced from polyphenolics in foods such as pomegranates,berries,and nuts.UA is neuroprotective against Parkinson’s disease,Alzheimer’s disease,and cerebral hemorrhage.However...Urolithin A(UA)is a natural metabolite produced from polyphenolics in foods such as pomegranates,berries,and nuts.UA is neuroprotective against Parkinson’s disease,Alzheimer’s disease,and cerebral hemorrhage.However,its effect against traumatic brain injury remains unknown.In this study,we established adult C57BL/6J mouse models of traumatic brain injury by controlled cortical impact and then intraperitoneally administered UA.We found that UA greatly reduced brain edema;increased the expression of tight junction proteins in injured cortex;increased the immunopositivity of two neuronal autophagy markers,microtubule-associated protein 1A/B light chain 3A/B(LC3)and p62;downregulated protein kinase B(Akt)and mammalian target of rapamycin(mTOR),two regulators of the phosphatidylinositol 3-kinase(PI3K)/Akt/mTOR signaling pathway;decreased the phosphorylation levels of inhibitor of NFκB(IκB)kinase alpha(IKKα)and nuclear factor kappa B(NFκB),two regulators of the neuroinflammation-related Akt/IKK/NFκB signaling pathway;reduced blood-brain barrier permeability and neuronal apoptosis in injured cortex;and improved mouse neurological function.These findings suggest that UA may be a candidate drug for the treatment of traumatic brain injury,and its neuroprotective effects may be mediated by inhibition of the PI3K/Akt/mTOR and Akt/IKK/NFκB signaling pathways,thus reducing neuroinflammation and enhancing autophagy.展开更多
BACKGROUND In degenerative intervertebral disc(IVD),an unfavorable IVD environment leads to increased senescence of nucleus pulposus(NP)-derived mesenchymal stem cells(NPMSCs)and the inability to complete the differen...BACKGROUND In degenerative intervertebral disc(IVD),an unfavorable IVD environment leads to increased senescence of nucleus pulposus(NP)-derived mesenchymal stem cells(NPMSCs)and the inability to complete the differentiation from NPMSCs to NP cells,leading to further aggravation of IVD degeneration(IDD).Urolithin A(UA)has been proven to have obvious effects in delaying cell senescence and resisting oxidative stress.AIM To explore whether UA can alleviate NPMSCs senescence and to elucidate the underlying mechanism.METHODS In vitro,we harvested NPMSCs from rat tails,and divided NPMSCs into four groups:the control group,H2O2 group,H2O2+UA group,and H2O2+UA+SR-18292 group.Senescence-associatedβ-Galactosidase(SA-β-Gal)activity,cell cycle,cell proliferation ability,and the expression of senescence-related and silent information regulator of transcription 1/PPAR gamma coactivator-1α(SIRT1/PGC-1α)pathway-related proteins and mRNA were used to evaluate the protective effects of UA.In vivo,an animal model of IDD was constructed,and Xrays,magnetic resonance imaging,and histological analysis were used to assess whether UA could alleviate IDD in vivo.RESULTS We found that H2O2 can cause NPMSCs senescence changes,such as cell cycle arrest,reduced cell proliferation ability,increased SA-β-Gal activity,and increased expression of senescence-related proteins and mRNA.After UA pretreatment,the abovementioned senescence indicators were significantly alleviated.To further demonstrate the mechanism of UA,we evaluated the mitochondrial membrane potential and the SIRT1/PGC-1αpathway that regulates mitochondrial function.UA protected mitochondrial function and delayed NPMSCs senescence by activating the SIRT1/PGC-1αpathway.In vivo,we found that UA treatment alleviated an animal model of IDD by assessing the disc height index,Pfirrmann grade and the histological score.CONCLUSION In summary,UA could activate the SIRT1/PGC-1αsignaling pathway to protect mitochondrial function and alleviate cell senescence and IDD in vivo and vitro.展开更多
OBJECTIVE Mitochondrial dys⁃function contributes to the pathogenesis of neuro⁃degenerative diseases such as Parkinson dis⁃ease(PD).Therapeutic strategies targeting mito⁃chondrial dysfunction hold considerable promise ...OBJECTIVE Mitochondrial dys⁃function contributes to the pathogenesis of neuro⁃degenerative diseases such as Parkinson dis⁃ease(PD).Therapeutic strategies targeting mito⁃chondrial dysfunction hold considerable promise for the treatment of PD.Urolithin A(UA)is a gut metabolite produced from ellagic acid-containing foods such as pomegranates,berries,and wal⁃nuts.Recent reports have highlighted the protec⁃tive role of UA in several neurological disorders including Alzheimer disease and ischemic stroke.However,the potential role of UA in PD has not been characterized.In this study,the role of UA in 6-OHDA-induced neurotoxicity in cell cultures and mouse model of PD was investi⁃gated.METHODS In vitro,PC12 cells were exposed to 6-OHDA in the presence or absence of UA.For in vivo study,C57BL/6 mice were ste⁃reotactic injected with 6-OHDA to induce experi⁃mental PD model.UA(10 mg·kg-1)was intraperi⁃toneal injected for 7 d before surgery.RESULTS UA protected against 6-OHDA cytotoxicity and apoptosis in PC12 cells.Prior administration of UA to 6-OHDA lesioned mice ameliorated both motor deficits and nigral-straital dopaminergic neurotoxicity.Moreover,UA attenuated 6-OHDA-induced mitochondrial dysfunction in PC12 cells accompanied by enhanced mitochondrial biogen⁃esis.Mechanically,the neuroprotective effects of UA were mediated by SIRT1-PGC-1αsignaling-mediated mitochondrial biogenesis.CONCLU⁃SION These data provide new insights into the novel role of UA in promoting mitochondria bio⁃genesis and suggest that UA may have potential therapeutic applications for PD.展开更多
尿石素A具有许多优良的生理活性,但其极低的水溶性和生物利用率限制了尿石素A的应用。为克服上述限制,该文采用pH驱动法结合高压均质技术制备尿石素A脂质体(urolithin A liposomes,UA-LPs),并考察其结构特性、稳定性及体外消化特性。结...尿石素A具有许多优良的生理活性,但其极低的水溶性和生物利用率限制了尿石素A的应用。为克服上述限制,该文采用pH驱动法结合高压均质技术制备尿石素A脂质体(urolithin A liposomes,UA-LPs),并考察其结构特性、稳定性及体外消化特性。结果表明,大豆卵磷脂为20 mg/mL所制得的UA-LPs的平均粒径为(97.46±0.83)nm,多分散系数为(0.27±0.01),Zeta电位为(-40.3±1.06)mV,包埋率为(98.11±0.26)%,负载率为(2.39±0.01)%。UA-LPs在原子力显微镜下为分布均匀的球状结构。热稳定性实验表明,不同大豆卵磷脂浓度的UA-LPs的包埋率均随热处理时间的延长有所下降,20 mg/mL的大豆卵磷脂制备的UA-LPs具有最好的热稳定性,其在80℃处理180 min后仍可保留45%的尿石素A,且粒径、多分散系数变化趋势较小。pH稳定性表明UA-LPs在酸性条件下包埋率较低,随着pH的升高,粒径、多分散系数变化不显著(P>0.05),20 mg/mL的大豆卵磷脂制备的UA-LPs的Zeta电位绝对值上升5.5,稳定性升高。体外模拟消化实验表明,UA-LPs能有效提高尿石素A的转化率以及生物可接受度,其中20 mg/mL大豆卵磷脂制备的UA-LPs的体外转化率相比游离的尿石素A增加了3.26倍,生物可接受度提高2.07倍。因此,利用pH驱动法可以成功制备出UA-LPs,且高大豆卵磷脂浓度的UA-LPs物理稳定性更好,以上研究结果为扩展尿石素A在食品工业及生物医药领域的应用提供依据。展开更多
基金Supported by the National Science Centre,No.2017/26/D/NZ7/00748。
文摘Urolithin A(UA)is a metabolic compound generated during the biotransformation of ellagitannins by the intestinal bacteria.The physiologically relevant micromolar concentrations of UA,achieved in the plasma and gastrointestinal tract(GI)after consumption of its dietary precursors,have been revealed to offer GI protection.The health benefit has been demonstrated to be principally related to anticancer and anti-inflammatory effects.UA has been shown to possess the capability to regulate multiple tumor and inflammatory signaling pathways and to modulate enzyme activity,including those involved in carcinogen biotransformation and antioxidant defense.The purpose of this review is to gather evidence from both in vitro and in vivo studies showing the potential of UA in GI protection alongside suggested mechanisms by which UA can protect against cancer and inflammatory diseases of the digestive tract.The data presented herein,covering both studies on the pure compound and in vivo generated UA form its natural precursor,support the potential of this metabolite in treatment interventions against GI ailments.
基金supported by the National Natural Science Foundation of China,Nos.81974189(to HLT),81801236(to QYG and LC),82001310(to DXY).
文摘Urolithin A(UA)is a natural metabolite produced from polyphenolics in foods such as pomegranates,berries,and nuts.UA is neuroprotective against Parkinson’s disease,Alzheimer’s disease,and cerebral hemorrhage.However,its effect against traumatic brain injury remains unknown.In this study,we established adult C57BL/6J mouse models of traumatic brain injury by controlled cortical impact and then intraperitoneally administered UA.We found that UA greatly reduced brain edema;increased the expression of tight junction proteins in injured cortex;increased the immunopositivity of two neuronal autophagy markers,microtubule-associated protein 1A/B light chain 3A/B(LC3)and p62;downregulated protein kinase B(Akt)and mammalian target of rapamycin(mTOR),two regulators of the phosphatidylinositol 3-kinase(PI3K)/Akt/mTOR signaling pathway;decreased the phosphorylation levels of inhibitor of NFκB(IκB)kinase alpha(IKKα)and nuclear factor kappa B(NFκB),two regulators of the neuroinflammation-related Akt/IKK/NFκB signaling pathway;reduced blood-brain barrier permeability and neuronal apoptosis in injured cortex;and improved mouse neurological function.These findings suggest that UA may be a candidate drug for the treatment of traumatic brain injury,and its neuroprotective effects may be mediated by inhibition of the PI3K/Akt/mTOR and Akt/IKK/NFκB signaling pathways,thus reducing neuroinflammation and enhancing autophagy.
基金National Natural Science Foundation of China,No.81972136Young Medical Scholars Major Program of Jiangsu Province,No.QNRC2016342+1 种基金Key Funding Project of Maternal and Child Health Research of Jiangsu Province,No.F201801and Highlevel Health Professionals"Six projects"Top-notch Talent Research Program of Jiangsu Province,No.LGY2019035.
文摘BACKGROUND In degenerative intervertebral disc(IVD),an unfavorable IVD environment leads to increased senescence of nucleus pulposus(NP)-derived mesenchymal stem cells(NPMSCs)and the inability to complete the differentiation from NPMSCs to NP cells,leading to further aggravation of IVD degeneration(IDD).Urolithin A(UA)has been proven to have obvious effects in delaying cell senescence and resisting oxidative stress.AIM To explore whether UA can alleviate NPMSCs senescence and to elucidate the underlying mechanism.METHODS In vitro,we harvested NPMSCs from rat tails,and divided NPMSCs into four groups:the control group,H2O2 group,H2O2+UA group,and H2O2+UA+SR-18292 group.Senescence-associatedβ-Galactosidase(SA-β-Gal)activity,cell cycle,cell proliferation ability,and the expression of senescence-related and silent information regulator of transcription 1/PPAR gamma coactivator-1α(SIRT1/PGC-1α)pathway-related proteins and mRNA were used to evaluate the protective effects of UA.In vivo,an animal model of IDD was constructed,and Xrays,magnetic resonance imaging,and histological analysis were used to assess whether UA could alleviate IDD in vivo.RESULTS We found that H2O2 can cause NPMSCs senescence changes,such as cell cycle arrest,reduced cell proliferation ability,increased SA-β-Gal activity,and increased expression of senescence-related proteins and mRNA.After UA pretreatment,the abovementioned senescence indicators were significantly alleviated.To further demonstrate the mechanism of UA,we evaluated the mitochondrial membrane potential and the SIRT1/PGC-1αpathway that regulates mitochondrial function.UA protected mitochondrial function and delayed NPMSCs senescence by activating the SIRT1/PGC-1αpathway.In vivo,we found that UA treatment alleviated an animal model of IDD by assessing the disc height index,Pfirrmann grade and the histological score.CONCLUSION In summary,UA could activate the SIRT1/PGC-1αsignaling pathway to protect mitochondrial function and alleviate cell senescence and IDD in vivo and vitro.
文摘OBJECTIVE Mitochondrial dys⁃function contributes to the pathogenesis of neuro⁃degenerative diseases such as Parkinson dis⁃ease(PD).Therapeutic strategies targeting mito⁃chondrial dysfunction hold considerable promise for the treatment of PD.Urolithin A(UA)is a gut metabolite produced from ellagic acid-containing foods such as pomegranates,berries,and wal⁃nuts.Recent reports have highlighted the protec⁃tive role of UA in several neurological disorders including Alzheimer disease and ischemic stroke.However,the potential role of UA in PD has not been characterized.In this study,the role of UA in 6-OHDA-induced neurotoxicity in cell cultures and mouse model of PD was investi⁃gated.METHODS In vitro,PC12 cells were exposed to 6-OHDA in the presence or absence of UA.For in vivo study,C57BL/6 mice were ste⁃reotactic injected with 6-OHDA to induce experi⁃mental PD model.UA(10 mg·kg-1)was intraperi⁃toneal injected for 7 d before surgery.RESULTS UA protected against 6-OHDA cytotoxicity and apoptosis in PC12 cells.Prior administration of UA to 6-OHDA lesioned mice ameliorated both motor deficits and nigral-straital dopaminergic neurotoxicity.Moreover,UA attenuated 6-OHDA-induced mitochondrial dysfunction in PC12 cells accompanied by enhanced mitochondrial biogen⁃esis.Mechanically,the neuroprotective effects of UA were mediated by SIRT1-PGC-1αsignaling-mediated mitochondrial biogenesis.CONCLU⁃SION These data provide new insights into the novel role of UA in promoting mitochondria bio⁃genesis and suggest that UA may have potential therapeutic applications for PD.