UV and MS Identification of Urolithins and Nasutins, the Bioavailable Metabolites of Ellagitannins and Ellagic Acid in Different Mammals

González‐Barrio, Rocio; Truchado, Pilar; Ito, Hideyuki; Espı́n, Juan Carlos; Tomás-Barberán, Francisco A.

doi:10.1021/jf103894m

Cited by 133 publications

(196 citation statements)

References 29 publications

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“…The first product of ellagic acid catabolism is urolithin D, and successive loss of hydroxy groups result in the formation of urolithins C, A, and B 3. All mammals seem able to produce urolithins from ellagitannins found in food 4, 5. In healthy humans, urolithins A and B are most abundant 5, 6.…”

Section: Introductionmentioning

confidence: 99%

Urolithin B, a newly identified regulator of skeletal muscle mass

Rodriguez

Pierre

Naslain

et al. 2017

J cachexia sarcopenia muscle

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BackgroundThe control of muscle size is an essential feature of health. Indeed, skeletal muscle atrophy leads to reduced strength, poor quality of life, and metabolic disturbances. Consequently, strategies aiming to attenuate muscle wasting and to promote muscle growth during various (pathological) physiological states like sarcopenia, immobilization, malnutrition, or cachexia are needed to address this extensive health issue. In this study, we tested the effects of urolithin B, an ellagitannin‐derived metabolite, on skeletal muscle growth.MethodsC2C12 myotubes were treated with 15 μM of urolithin B for 24 h. For in vivo experiments, mice were implanted with mini‐osmotic pumps delivering continuously 10 μg/day of urolithin B during 28 days. Muscle atrophy was studied in mice with a sciatic nerve denervation receiving urolithin B by the same way.ResultsOur experiments reveal that urolithin B enhances the growth and differentiation of C2C12 myotubes by increasing protein synthesis and repressing the ubiquitin–proteasome pathway. Genetic and pharmacological arguments support an implication of the androgen receptor. Signalling analyses suggest a crosstalk between the androgen receptor and the mTORC1 pathway, possibly via AMPK. In vivo experiments confirm that urolithin B induces muscle hypertrophy in mice and reduces muscle atrophy after the sciatic nerve section.ConclusionsThis study highlights the potential usefulness of urolithin B for the treatment of muscle mass loss associated with various (pathological) physiological states.

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Section: Introductionmentioning

confidence: 99%

Urolithin B, a newly identified regulator of skeletal muscle mass

Rodriguez

Pierre

Naslain

et al. 2017

J cachexia sarcopenia muscle

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“…In plants, gallic acid (54), which is biosynthesized via the shikimate pathway [67], was considered as the precursor of ellagitannins [68]. The ellagitannins would be transformed into ellagic acid (55), and then into a series of urolithins (Scheme 1) [6,7,63]. However, in microorganisms, dibenzo-α-pyrones are biosynthesized via the polyketide pathway [3,25].…”

Section: Biosynthesis and Biotransformationmentioning

confidence: 99%

“…Four urolithins, namely urolithin A (40), isourolithin A (41), urolithin B (42) and urolithin C (43) were isolated from Trapa natans (Trapaceae) [4] and Caesalpinia sappan (Caesalpiniaceae) [53]. These urolithins ( Figure 3) were also isolated from animal feces [6,7]. Other dibenzo-α-pyrones isolated from plants included sabilactone (38) from Sabina vulgaris [54] and sarolactone (39) from Hypericum japonicum [55].…”

Section: Dibenzo-α-pyrones From Plantsmentioning

confidence: 99%

“…After administration of [1][2][3][4][5][6][7][8][9][10][11][12][13] C]acetate and [1,[2][3][4][5][6][7][8][9][10][11][12][13] C]acetate to cultured lichen mycobionts of Graphis spp., acetate units were incorporated into the 6H-dibenzo[b,d]pyran-6-one derivatives including alternariol (10), AME (11) and graphislactones A-F (18-23) [3]. Alternariol (10) could suffer oxidative demethylation at C-1, hydroxylation at C-4, and O-methylation at C-9 to lead formation of graphislactones E (22) and F (23).…”

Section: Biosynthesis and Biotransformationmentioning

confidence: 99%

“…They are usually isolated from fungi [1], mycobionts [2,3], plants [4,5], and animal feces containing the transformed products of plant-derived ellagitannins and ellagic acid by intestinal bacteria [6,7]. Many of them possess a wide spectrum of biological activities, spanning from toxicity on human and animals [8], cytotoxic activity [9], phytoxicity [10], antioxidant [6],…”

Section: Introductionmentioning

confidence: 99%

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Natural Dibenzo-α-Pyrones and Their Bioactivities

Mao

Sun

et al. 2014

Molecules

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Natural dibenzo-α-pyrones are an important group of metabolites derived from fungi, mycobionts, plants and animal feces. They exhibit a variety of biological activities such as toxicity on human and animals, phytotoxicity as well as cytotoxic, antioxidant, antiallergic, antimicrobial, antinematodal, and acetylcholinesterase inhibitory properties. Dibenzo-α-pyrones are biosynthesized via the polyketide pathway in microorganisms or metabolized from plant-derived ellagitannins and ellagic acid by intestinal bacteria. At least 53 dibenzo-α-pyrones have been reported in the past few decades. This mini-review aims to briefly summarize the occurrence, biosynthesis, biotransformation, as well as their biological activities and functions. Some considerations related to synthesis, production and applications of dibenzo-α-pyrones are also discussed.

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Analysis of Antioxidant‐Rich Phytochemicals

Xu¹,

Howard²

2012

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UV and MS Identification of Urolithins and Nasutins, the Bioavailable Metabolites of Ellagitannins and Ellagic Acid in Different Mammals

Cited by 133 publications

References 29 publications

Urolithin B, a newly identified regulator of skeletal muscle mass

Urolithin B, a newly identified regulator of skeletal muscle mass

Natural Dibenzo-α-Pyrones and Their Bioactivities

Analysis of Antioxidant‐Rich Phytochemicals

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