Top 5 Target	Count

ACMSD(aminocarboxymuconate semialdehyde decarboxylase)	2
NR2F6(NR2F6 protein)	2
LRH-1(nuclear receptor subfamily 5 group A member 2)	1
BRCA2 x RAD51	1
FXR(Bile acid receptor FXR)	1

Drugs associated with TES Pharma SRL

TES-ONC-07

Target

NR2F6

Mechanism

NR2F6 inhibitors

Active Org.

TES Pharma SRL

Originator Org.

TES Pharma SRL

Active Indication

Neoplasms

Inactive Indication-

Drug Highest PhasePreclinical

First Approval Ctry. / Loc.-

First Approval Date-

LRH-1 Inverse agonists (TES Pharma)

Target

LRH-1

Mechanism

LRH-1 inverse agonists

Active Org.

TES Pharma SRL

Originator Org.

TES Pharma SRL

Active Indication

Neoplasms

Inactive Indication-

Drug Highest PhasePreclinical

First Approval Ctry. / Loc.-

First Approval Date-

TES-AKI-01

Target

ACMSD

Mechanism

ACMSD inhibitors

Active Org.

TES Pharma SRL

Originator Org.

TES Pharma SRL

Active Indication

Acute Kidney Injury

Inactive Indication-

Drug Highest PhasePreclinical

First Approval Ctry. / Loc.-

First Approval Date-

100 Clinical Results associated with TES Pharma SRL

0 Patents (Medical) associated with TES Pharma SRL

Literatures (Medical) associated with TES Pharma SRL

21 Apr 2025·Cancer Research

Abstract 3135: First-in-class NR2F6 antagonist TES-ONC-07 enhances anti-cancer host immunity reducing tumor growth in a “cold” cancer model

Author: Colliva, Carolina ; Liscio, Paride ; Geroni, Cristina ; Greco, Francesco A. ; Russo, Vincenzo ; Rosatelli, Emiliano ; Pellicciari, Roberto ; Passeri, Daniela ; Fallarino, Francesca ; Manni, Giorgia ; Ciaccioli, Gianmario ; Marco, Cipolloni ; Damiano, Giuseppe

AbstractAnti-cancer immunotherapy has been a groundbreaking approach in the oncology field. However, currently approved immune checkpoint inhibitors (ICI) suffer from several drawbacks, such as low patient response rate and acquired resistance. The reasons why certain patients do not respond to ICI have not been fully elucidated. Recently, the high expression of the orphan Nuclear Receptor Subfamily-2 Group-F Member-6 (NR2F6) has been suggested as a biomarker for ICI sensitivity in melanoma patients (Kim H. et al. Science, 2023). NR2F6 expression correlates with low IFNγ signature and response to anti-PD-1. In T cells, NR2F6 acts as a transcriptional repressor of specific cytokines (IL-2, IFNγ), pivotal for anti-tumor response. Thus, NR2F6 is a pivotal factor that limits immune infiltration and activation in the tumor microenvironment. So far, the evaluation of NR2F6 as a potential drug target has been limited by the lack of small molecule ligands. A Tes Pharma drug discovery project has led to the identification of TES-ONC-07, an orally available first-in-class NR2F6 antagonist. TES.ONC-07 binds NR2F6 recombinant protein in the nanomolar range. TES-ONC-07 binding to NR2F6 leads to the detachment of the nuclear receptor from the promoter of target genes such as IL-2. Ex vivo, TES-ONC-07 stimulation increases the production of specific cytokines, including IL-2 and IFNγ, when added to CD4+ and CD8+ T cells. In a melanoma B16-F1 mouse model, TES-ONC-07 increases infiltration of several myeloid and lymphoid cell subsets, resulting in a significantly reduced cancer growth. Finally, we demonstrated that orally administered TES-ONC-07 has antitumor activity. In conclusion, we have identified the first small molecule NR2F6 antagonist endowed with characteristics that allowed in vivo proof of concept. TES-ONC-07 administration leads to increased immune infiltration in a notably “cold” cancer model and this effect remarkably slows down cancer growth. Overall, our data suggests that NR2F6 is a valuable novel drug target. Potentially, treatment with TES-ONC-07 may increase sensitivity to ICI, also in those patients with limited response. Further studies are ongoing to test combination therapies as well as complete the preclinical development of TES-ONC-07.Citation Format:Francesco A. Greco, Daniela Passeri, Gianmario Ciaccioli, Cipolloni Marco, Carolina Colliva, Cristina Geroni, Paride Liscio, Emiliano Rosatelli, Giorgia Manni, Francesca Fallarino, Giuseppe Damiano, Vincenzo Russo, Roberto Pellicciari. First-in-class NR2F6 antagonist TES-ONC-07 enhances anti-cancer host immunity reducing tumor growth in a “cold” cancer model [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2025; Part 1 (Regular Abstracts); 2025 Apr 25-30; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2025;85(8_Suppl_1):Abstract nr 3135.

01 Jan 2025·Zeitschrift für Gastroenterologie

Multimodal assessment of the skin-nerve-axis identifies specific patterns in patients with cholestatic liver disease-associated pruritus

Author: De Franco, Francesca ; Ständer, Sonja ; Dietrich, Peter ; Agelopoulos, Konstantin ; Süer, Aysenur ; Pellicciari, Roberto ; Kleinlein, Hannah ; Schmelz, Martin ; Vetter, Marcel ; Neurath, Markus F. ; Kremer, Andreas E ; Düll, Miriam ; Namer, Barbara

01 Aug 2024·European Journal of Medicinal Chemistry

Structure-based design of multitargeting ChEs-MAO B inhibitors based on phenyl ring bioisosteres: AChE/BChE selectivity switch and drug-like characterization

Article

Author: Cipolloni, Marco ; Colliva, Carolina ; Colella, Marco ; Pisani, Leonardo ; Giacchè, Nicola ; Rullo, Mariagrazia ; Mangiatordi, Giuseppe Felice ; Liuzzi, Grazia Maria ; La Spada, Gabriella ; Leonetti, Francesco ; Miniero, Daniela Valeria ; Delre, Pietro

A structure-based drug design approach was focused on incorporating phenyl ring heterocyclic bioisosteres into coumarin derivative 1, previously reported as potent dual AChE-MAO B inhibitor, with the aim of improving drug-like features. Structure-activity relationships highlighted that bioisosteric rings were tolerated by hMAO B enzymatic cleft more than hAChE. Interestingly, linker homologation at the basic nitrogen enabled selectivity to switch from hAChE to hBChE. In the present work, we identified thiophene-based isosteres 7 and 15 as dual AChE-MAO B (IC₅₀ = 261 and 15 nM, respectively) and BChE-MAO B (IC₅₀ = 375 and 20 nM, respectively) inhibitors, respectively. Both 7 and 15 were moderately water-soluble and membrane-permeant agents by passive diffusion (PAMPA-HDM). Moreover, they were able to counteract oxidative damage induced by both H₂O₂ and 6-OHDA in SH-SY5Y cells and predicted to penetrate into CNS in a cell-based model mimicking blood-brain barrier. Molecular dynamics (MD) simulations shed light on key differences in AChE and BChE recognition processes promoted by the basic chain homologation from 7 to 15.

News (Medical) associated with TES Pharma SRL

09 Nov 2022

·www.prnewswire.com

TES Pharma Congratulates Intercept Pharmaceuticals on their Presentation of Phase 1 INT-787 Data at the AASLD Meeting and the Initiation of the Phase 2a FRESH Study in Patients with Severe Alcohol-Associated Hepatitis

PERUGIA, Italy, Nov. 8, 2022 /PRNewswire/ -- TES Pharma Srl, an Italian biotechnology company focused on the discovery and development of novel drug products for the treatment of diseases of high unmet medical need, congratulates Intercept Pharmaceuticals, Inc., on the presentation of data from their ongoing first-in-human study of INT-787 and the initiation of the phase 2a FRESH (FxREffect on Severe Alcohol-Associated Hepatitis) study, a trial evaluating the safety, tolerability, efficacy and pharmacokinetics of INT-787 in subjects with sAH. INT-787 is a selective next generation Farnesoid X Receptor (FXR) agonist invented by TES Pharma, and licensed to Intercept Pharmaceuticals within the framework of a licence and collaboration agreement. Details of the clinical studies can be found at www.interceptpharma.com. Professor Roberto Pellicciari, the founder and CEO of TES Pharma, is also the inventor of obeticholic acid (OCA), a prototypic bile acid derived FXR agonist which is approved for the treatment of primary biliary cholangitis (PBC) and commercialised by Intercept Pharmaceuticals in the United States. PBC is a progressive autoimmune disease that damages the bile ducts in the liver and is a leading cause of chronic liver disease leading to liver transplantation. INT-787 has distinct pharmacological properties that differ from those of OCA and has shown strong anti-fibrotic and anti-inflammatory effects in animal models. Data from a murine NASH model comparing OCA and INT-787 were also presented at the American Association for the Study of Liver Diseases (AASLD) meeting. "We are proud of the work we do at TES Pharma, and very pleased about the ongoing first-in-human study of INT-787 and the initiation of the Phase 2a FRESH study in patients with severe alcohol-associated hepatitis, important milestones that encourage us to continue our mission to find new treatments to improve people's lives, especially for patients suffering from serious diseases", said Prof. Pellicciari. TES Pharma is a research-based biotech company, located in Perugia (Italy), dedicated to the identification of novel therapeutic targets and the discovery and development of new molecules to efficiently address the needs of patients with serious oncological and metabolic conditions. More information about TES Pharma can be found at www.tespharma.com. TES Pharma was founded in 2011 by Prof. Pellicciari together with Drs. Antimo Gioiello, Antonio Macchiarulo, and Janet Robertson. Prior to founding TES Pharma, Prof. Pellicciari led the Medicinal Chemistry Research Group at the Department of Chemistry and Drug Technologies of the University of Perugia.

CollaboratePhase 2Clinical Result

08 Nov 2022

·www.biospace.com

INT-787 is a selective next generation FXR agonist invented by TES Pharma and licensed to Intercept Pharmaceuticals INT-787 has shown strong anti-fibrotic and anti-inflammatory effects in animal models TES Pharma is dedicated to the identification of novel therapeutic targets and the discovery and development of new molecules to efficiently address the needs of patients with serious oncological and metabolic conditions PERUGIA, Italy, Nov. 8, 2022 /PRNewswire/ -- TES Pharma Srl, an Italian biotechnology company focused on the discovery and development of novel drug products for the treatment of diseases of high unmet medical need, congratulates Intercept Pharmaceuticals, Inc., on the presentation of data from their ongoing first-in-human study of INT-787 and the initiation of the phase 2a FRESH (FxR Effect on Severe Alcohol-Associated Hepatitis) study, a trial evaluating the safety, tolerability, efficacy and pharmacokinetics of INT-787 in subjects with sAH. INT-787 is a selective next generation Farnesoid X Receptor (FXR) agonist invented by TES Pharma, and licensed to Intercept Pharmaceuticals within the framework of a licence and collaboration agreement. Details of the clinical studies can be found at . Professor Roberto Pellicciari, the founder and CEO of TES Pharma, is also the inventor of obeticholic acid (OCA), a prototypic bile acid derived FXR agonist which is approved for the treatment of primary biliary cholangitis (PBC) and commercialised by Intercept Pharmaceuticals in the United States. PBC is a progressive autoimmune disease that damages the bile ducts in the liver and is a leading cause of chronic liver disease leading to liver transplantation. INT-787 has distinct pharmacological properties that differ from those of OCA and has shown strong anti-fibrotic and anti-inflammatory effects in animal models. Data from a murine NASH model comparing OCA and INT-787 were also presented at the American Association for the Study of Liver Diseases (AASLD) meeting. "We are proud of the work we do at TES Pharma, and very pleased about the ongoing first-in-human study of INT-787 and the initiation of the Phase 2a FRESH study in patients with severe alcohol-associated hepatitis, important milestones that encourage us to continue our mission to find new treatments to improve people's lives, especially for patients suffering from serious diseases", said Prof. Pellicciari. TES Pharma is a research-based biotech company, located in Perugia (Italy), dedicated to the identification of novel therapeutic targets and the discovery and development of new molecules to efficiently address the needs of patients with serious oncological and metabolic conditions. More information about TES Pharma can be found at . TES Pharma was founded in 2011 by Prof. Pellicciari together with Drs. Antimo Gioiello, Antonio Macchiarulo, and Janet Robertson. Prior to founding TES Pharma, Prof. Pellicciari led the Medicinal Chemistry Research Group at the Department of Chemistry and Drug Technologies of the University of Perugia. CONTACT: Prof. Roberto Pellicciari rpellicciari@tespharma.com , Phone: +39 075 6978111 E: info@tespharma.com F: +39 075 6978882 GSM: +39 366 9057122 Logo - View original content to download multimedia: SOURCE TES Pharma

Collaborate

100 Deals associated with TES Pharma SRL

100 Translational Medicine associated with TES Pharma SRL

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Pipeline

Pipeline Snapshot as of 31 May 2025

The statistics for drugs in the Pipeline is the current organization and its subsidiaries are counted as organizations,Early Phase 1 is incorporated into Phase 1, Phase 1/2 is incorporated into phase 2, and phase 2/3 is incorporated into phase 3

Discovery

Preclinical

Other

Current Projects

Drug(Targets)	Indications	Global Highest Phase

TC-100 ( FXR )	Inflammatory Bowel Diseases More	Preclinical
TES-ONC-07 ( NR2F6 )	Neoplasms More	Preclinical
TES-1025 ( ACMSD )	Neoplasms More	Preclinical
LRH-1 Inverse agonists (TES Pharma) ( LRH-1 )	Neoplasms More	Preclinical
TES-4207 ( NR2F6 )	Melanoma More	Preclinical

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