Delving into the Latest Updates on Tripterygium wilfordii Extract with Synapse

Overview

Basic Info

Drug Type

Herbal medicine

Synonyms

chloroform/methanol extract Tripterygium wilfordii Hook F (TWHF), T2, Topical compound tripterygium

+ [6]

Target-

Action-

Mechanism-

Therapeutic Areas

Immune System DiseasesInfectious DiseasesUrogenital Diseases+ [1]

Active Indication-

Inactive Indication

Acquired Immunodeficiency SyndromeAIDS-Related Opportunistic InfectionsLupus Nephritis+ [1]

Originator Organization-

Active Organization-

Inactive Organization

Guang'anmen Hospital, China Academy of Chinese Medical SciencesPeking Union Medical College Hospital

License Organization-

Drug Highest PhasePendingPhase 3

First Approval Date-

Regulation-

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An open-label, balanced, randomized, three-treatment, four-sequence, four-period, single dose, partial replicate, crossover, oral bioequivalence study of Test product 1 (T1), Olsalazine sodium 250 mg (250 mg x 2) capsules (Zuventus Healthcare Limited, India) and Test product 2 (T2), Olsalazine sodium 500 mg (500 mg x 1) capsules (Zuventus Healthcare Limited, India) with Reference product (R), Olsalazine Sodium 250 mg (250 mg x 2) capsules (Atnahs Pharma UK Limited, Sovereign House, Miles Gray Road, Basildon, Essex, SS14 3FR, United Kingdom) in healthy, adult, human subjects under fasting conditions. - NIL

Start Date31 Mar 2025

Sponsor / Collaborator

Zuventus Healthcare Ltd.

ChiCTR2400090996

/ SuspendedPhase 4

Effectiveness and Safety of Tumor Necrosis Factor Receptor Fusion Protein (Yisaipu) combined with Tripterygium Wilfordii and Methotrexate for Active Rheumatoid Arthritis: A Multicenter, Prospective, Controlled Study

Start Date01 Nov 2024

Sponsor / Collaborator-

ChiCTR2400086105

/ SuspendedPhase 2/3IIT

Safety and efficacy of Tripterygium wilfordii Hook F in diabetic kidney disease: a randomized controlled trial

Start Date30 Jun 2024

Sponsor / Collaborator-

100 Clinical Results associated with Tripterygium wilfordii Extract

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100 Translational Medicine associated with Tripterygium wilfordii Extract

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100 Patents (Medical) associated with Tripterygium wilfordii Extract

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771

Literatures (Medical) associated with Tripterygium wilfordii Extract

01 Jul 2025·FOOD AND CHEMICAL TOXICOLOGY

Exploring the relationship between daily intake and urinary excretion of the mycotoxins T-2 and HT-2 toxin in humans

Article

Author: Schepens, Marloes A A ; Brantsæter, Anne Lise ; Sopel, Marta M ; Mengelers, Marcel J B ; de Heer, Judith A ; Kalyva, Maria ; McKeon, Hannah P ; van den Brand, Annick D ; Husøy, Trine ; Hoogenveen, Rudolf

T-2 toxin (T-2) and HT-2 toxin (HT-2) are mycotoxins that can contaminate food, especially cereals. Exposure to T-2 and HT-2 has mainly been estimated using dietary exposure assessment, however, human biomonitoring presents another valuable approach. The relationship between daily intake and urinary excretion of T-2 and HT-2 over time in 40 Norwegian adults was modelled. T-2, HT-2 and T-2 triol were analysed in 24-h urine samples using LC-MS/MS. Dietary exposure of T-2 and HT-2 was calculated using 24-h weighed dietary records and concentration data in food derived from measured concentrations in raw food commodities. A statistical model was developed and fit to estimate the excreted fraction (f_{abs_excr}) and residence time parameters. Without deconjugation prior to analysis, T-2, HT-2 or T-2 triol were not detected in the urine of the 40 adults. Applying a deconjugation step, total HT-2 (HT-2 and its glucuronides) was detected in almost all samples. Using the statistical model, the mean f_{abs_excr} was estimated to be 0.184, equivalent to 18.4 %. The estimated time in which 97.5 % of the ingested T-2 and HT-2 was excreted as total HT-2 was 14.3 h, and the elimination half-life was 4.0 h. This study highlights the challenges involved in modelling the relationship between daily intake and urinary excretion of T-2 and HT-2 over time in humans. The findings indicate that approximately 20 % of the external exposure can be traced back in the urine within 24 h. However, additional research is required to support and strengthen these findings.

01 Jun 2025·MICROCHIMICA ACTA

Tailoring shell thickness in Au@Cu2O nanoparticles for enhanced mimetic peroxidase activity: a colorimetric aptasensor for zearalenone detection

Article

Author: Wang, Junhao ; Xie, Xinhua ; Zhu, Xiaodong ; Zhu, Hongshuai ; Chang, Weidan ; Ji, Huifu ; Liu, Yingju ; Zhang, Bobo

Zearalenone (ZEN), a prevalent mycotoxin in agricultural crops, poses significant risks to human and animal health due to its bioaccumulation potential within the food chain. In this study, Au@Cu₂O core-shell nanoparticles with precisely controlled Cu₂O shell thickness were synthesized through a gold nanoparticle (AuNPs)-mediated self-assembly strategy by modulating the amount of AuNPs. Systematic analysis revealed an inverse correlation between peroxidase-like activity and shell thickness. Consequently, a high-sensitivity colorimetric aptasensor for ZEN detection was developed via the integration of Au@Cu₂O nanoparticles with ZEN-specific aptamers. The Au@Cu₂O nanoparticles function as signal amplifiers, while the aptamers provide target specificity. Under optimal conditions, the aptasensor demonstrated a linear dynamic range of 0.0005-5 μg/L for ZEN, with colorimetric signal intensities exhibiting exceptional specificity for ZEN, with negligible cross-reactivity to co-occurring mycotoxins (AFB₁, AFB₂, OTA, DON, T-2), while achieving stable detection in real agricultural matrices, including wheat flour and cornmeal. Hence, this work not only offers a novel strategy for ZEN monitoring in food but also advances the rational design of core-shell nanomaterials for biosensing applications.

28 May 2025·JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY

Mechanistic Insights into T-2 Toxin-Induced Thymic Epithelial Cell Injury and Immunotoxicity via the ROS-NF-κB-NLRP3 Signaling Axis

Article

Author: Sun, Zilong ; Chen, Mingyan ; Guo, Dongguang ; Niu, Ruiyan ; Zhang, Yanfang

Thymic epithelial cells (TECs) are critical for thymic structure and function, yet the impact of T-2 toxin (T-2) on TECs and related molecular pathways remains unclear. This study sheds light on the mechanisms of T-2-induced TEC damage, focusing on the ROS-NF-κB-NLRP3 signaling axis. The in vivo and in vitro analyses suggest that T-2 induces TEC injury through ROS-driven NLRP3 inflammasome activation, NF-κB signaling, inflammation, and apoptosis. Molecular docking analysis verified the binding of T-2 to critical components involved in oxidative stress, inflammatory signaling pathways, and apoptosis. These findings were further supported by therapeutic interventions targeting ROS and NLRP3. N-acetylcysteine (NAC) effectively reduced ROS levels, suppressed NF-κB signaling, inhibited NLRP3 activation, and mitigated inflammation and apoptosis, effects mirrored by the NLRP3 inhibitor MCC950, emphasizing the critical role of ROS-mediated NLRP3 inflammasome activation through NF-κB signaling in T-2-induced TEC damage. Concurrently, inhibition of the NF-κB signaling further suppressed ROS levels, NLRP3 inflammasome activation, and apoptosis in MTEC1 cells, emphasizing the pivotal function of the ROS-NF-κB-NLRP3 axis in the pathogenesis of T-2-induced thymic injury. Our study offers an in-depth insight into the mechanisms driving T-2-induced immunotoxicity and identifies potential therapeutic strategies targeting these pathways to mitigate thymic injury and preserve immune function.

1

News (Medical) associated with Tripterygium wilfordii Extract

17 Oct 2023

·www.biospace.com

Research in the Special Issue of Journal of Pharmaceutical Analysis Uncovers Previously Unexplored Cellular Mechanisms

XI'AN, China, Oct. 17, 2023 /PRNewswire/ -- Single-cell and spatially resolved omics have helped scientists take a closer look at tissue composition, structure, and function. This comprehensive understanding paves the way for them to uncover some intricate and previously unknown disease mechanisms. Three articles in the most recent special issue of the Journal of Pharmaceutical Analysis (JPA) discuss how single-cell and spatially resolved omics help unravel intercellular dynamics, aiding the development of novel therapeutic modalities. The first study focuses on microglia-astrocyte communication which may improve the therapeutic landscape of intracerebral hemorrhage (ICH). It is based on the notion that after a spinal cord injury or stroke, reactive astrocytes in the brain form a 'glial scar', that is lesser known in the context of ICH. To this end, the authors used spatial transcriptomics to investigate how microglial depletion (induced using PLX3397) affects astrocytic scar formation in the early and late stages of ICH. The article was available online in February 2023 and published in Volume 13, Issue 8 of JPA in August 2023. The researchers discovered that during early ICH, microglia-derived insulin-like growth factor 1 (IGF1) regulated protective astrocytic scar formation by activating the mechanistic target of rapamycin (mTOR) signaling pathway, which was further activated by the repopulating microglia. In chronic ICH, however, the scar had less protective and more neurotoxic effects. Interestingly, this effect could be partially reversed by delayed microglial depletion. The corresponding author Jianmin Zhang says, "Delayed microglial depletion may help with chronic ICH. Combined early-stage IGF1/osteopontin and late-stage PLX3397 treatment could be a promising therapeutic strategy for ICH." The second study attempted to investigate the testicular toxicity of triptolide, an active component of the traditional Chinese medicine Tripterygium wilfordii Hook. F., at the single cell level. Although triptolide is effective in the treatment of inflammatory diseases, its side effects, particularly testicular toxicity, limit its clinical use. The researchers used triptolide to treat mice, then isolated their testes and prepared single-cell suspensions. These were used to create a transcriptome map, which revealed that in treated mice, inflammatory response and reactive oxygen species signaling were upregulated, while germ cell and spermatid development were downregulated, indicative of triptolide-induced toxicity. "Our findings provide an invaluable resource for identifying the therapeutic targets of triptolide-induced male reproductive toxicity", explains corresponding author Dr. Chuanbin Yang. The third study elaborated on the single-cell and spatial analysis of epicardial cells in mouse heart tissue from embryonic day 9.5 to postnatal day 9. The team identified that the gene markers Msln, C3, Efemp1, and Upk3b were specific to postnatal (mature) epicardial tissue and were associated with increased extracellular matrix (ECM) signaling. Furthermore, while Wt1, Tbx18, and Upk3b were expressed at all stages, Msln, C3, and Efemp1 were expressed only in mature stages. "The findings of our research can enhance the current understanding of epicardial cells, contributing to the development of more effective cardiac regenerative therapy strategies. This, in turn, improves the prognosis of patients with myocardial infarction and propels advancements in the field of cardiac repair," comments author Dr. Ling Zhang. Together, these articles enlighten us with a deeper understanding of cellular mechanisms at the single-cell and spatial levels, offering hope for improved treatment strategies in the future. Reference Title of original paper: Temporal dynamics of microglia-astrocyte interaction in neuroprotective glial scar formation after intracerebral hemorrhage Journal: Journal of Pharmaceutical Analysis DOI: Media contact Mengjie Wang 367011@email4pr.com Xi'an, China +86-(0)29-88960092 View original content to download multimedia: SOURCE Journal of Pharmaceutical Analysis

100 Deals associated with Tripterygium wilfordii Extract

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R&D Status

10 top R&D records.

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Indication	Highest Phase	Country/Location	Organization	Date
Acquired Immunodeficiency Syndrome	Phase 3	China	Peking Union Medical College Hospital	01 Sep 2018
Lupus Nephritis	Phase 3	China	Peking Union Medical College Hospital	01 Jul 2012
Rheumatoid Arthritis	Phase 3	China	Peking Union Medical College Hospital	01 May 2012
AIDS-Related Opportunistic Infections	Phase 2	China	-	01 Jun 2012

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Clinical Result

Indication

Phase

Evaluation

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Study	Phase	Population	Analyzed Enrollment	Group	Results	Evaluation	Publication Date


NCT03589833 (Pubmed \| Clin Immunol)	Phase 4	Rheumatoid Arthritis	126	Tripterygium wilfordii Hook F (TwHF) + rhTNFR-Fc	yiempnmcpv(eqgalwwwxo) = ujbivvkkpg irjhiluwno (tknkggvxsh )	Positive	01 Oct 2023
				Methotrexate (MTX) + rhTNFR-Fc	yiempnmcpv(eqgalwwwxo) = fyqlpuqasv irjhiluwno (tknkggvxsh )
IAS2021	Not Applicable	HIV Infections	8	Tripterygium wilfordii hook F (Immunological non-responders (INRs))	qwzyjvgltd(jlskguzefn) = tldpzcrhbz kqzbwykbrw (kgtnddetta )	-	01 Jan 2021
				Tripterygium wilfordii hook F (Immunological responders (IR))	qwzyjvgltd(jlskguzefn) = khkoxhuhle kqzbwykbrw (kgtnddetta )
ASN2019	Not Applicable	Diabetic Nephropathies	28	Tripterygium wilfordii Hook F (TwHF) extract 60mg daily	qshcrqbiog(ncrfibzezp) = ozsiptevdo mhoxxcdzgj (oxyzczdqoy )	Positive	05 Nov 2019
				Maximum dose of ARBs	qshcrqbiog(ncrfibzezp) = qymqksjwje mhoxxcdzgj (oxyzczdqoy )
EULAR2018	Not Applicable	Rheumatoid Arthritis	641	TwHF therapy	zetmptomav(czlcferkbo) = alyfqgxibz hvzrlwucej (nvdljofwgd )	-	13 Jun 2018
NCT01613079 (TRIFRA, Pubmed \| Arthritis Res Ther)	Phase 2/3	Rheumatoid Arthritis	207	Tripterygium wilfordii Hook F	lnjwzbwjvp(eyfcnojorz) = ufephtyvxi vqidriaskm (pjlvxaggfp )	Positive	10 Apr 2018
				Methotrexate	lnjwzbwjvp(eyfcnojorz) = fqbrfijjkg vqidriaskm (pjlvxaggfp )
NCT01613079 (Pubmed \| Ann Rheum Dis)	Phase 2/3	Rheumatoid Arthritis	207	Tripterygium wilfordii Hook F	uzmldmpzfq(hotwkgkhss) = tcugjenlvh kzzdmxiebb (deedhpdohw )	-	01 Jun 2015
				MTX+TwHF	uzmldmpzfq(hotwkgkhss) = lazsxyflns kzzdmxiebb (deedhpdohw )
NCT00518362 (Pubmed \| J Transl Med)	Not Applicable	Diabetic Nephropathies	65	Tripterygium wilfordii Hook F extract	djyyrdwrmm(ixjypeeoia) = ioibjlhbyz mrfbwcwdyd (hmlwhijnkt )	-	31 May 2013
EULAR2012	Not Applicable	Rheumatoid Arthritis Maintenance	268	Tripterygium wilfordii multiglycoside (GTW) combined DMARDs	soboazqapv(lpckabecbs) = oweemhkjsb okfvdvhcmd (erocysgodg )	-	06 Jun 2012
				DMARDs without GTW	soboazqapv(lpckabecbs) = nbqqlkksir okfvdvhcmd (erocysgodg )
SAO064 (ERA2012)	Not Applicable	Diabetic Nephropathies	65	Valsartan	brfdpfufrp(ckdhktouur) = cqyqklzcoi mzyljhjkad (qhnqdfmjnm, 2.25) View more	Positive	01 May 2012