TT-701(TT-701) - 药物靶点：AR_在研适应症：终末期肾脏病_专利_临床

概要

基本信息

药物类型

小分子化药

别名

LY-2452473、OPK 88004、OPK-88004

+ [1]

靶点

AR

作用机制

AR调节剂(雄激素受体调节剂)

治疗领域

泌尿生殖系统疾病

在研适应症

终末期肾脏病

非在研适应症

勃起功能障碍前列腺增生症

原研机构

Transition Therapeutics, Inc.

在研机构

Prolor Biotech Ltd.

非在研机构

Eli Lilly & Co.

OPKO Health, Inc.

最高研发阶段临床1期

首次获批日期-

最高研发阶段(中国)-

特殊审评-

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结构

分子式C22H22N4O2

InChIKeyIHIWYQYVBNODSV-KRWDZBQOSA-N

CAS号1029692-15-6

关联

4

项与 TT-701 相关的临床试验

NCT03297398 / Terminated临床2期

A Randomized, Double-blind, Placebo-controlled Dose-ranging Study of OPK-88004 Once-a-day Dosing for 16 Weeks in Men With Signs and Symptoms of Benign Prostatic Hyperplasia

This study will evaluate the safety and effectiveness of different doses of OPK-88004 compared to placebo on serum PSA compared to placebo in men with benign prostatic hyperplasia (BPH).

开始日期2018-02-21

申办/合作机构

OPKO Health, Inc.

NCT02499497 / Completed临床2期IIT

A Selective Androgen Receptor Modulator for Symptom Management in Prostate Cancer

This research study is studying the use of a targeted therapy called LY SARM, which is an investigational drug from a new class of molecules called Selective Androgen Receptor Modulators (SARMs) as a possible improvement in quality of life for participants who have undergone radical prostatectomy. Androgens are a group of hormones that play a role in male traits and reproductive activity.
The names of the study interventions involved in this study are:
- LY2452473

开始日期2016-02-29

申办/合作机构

Dana-Farber Cancer Institute, Inc.

NCT01275157 / Completed临床1期

Disposition of [14C]-LY2452473 Following Oral Administration in Healthy Human Subjects

This is a single dose study of radiolabeled [14C]-LY2452473 in healthy male volunteers to study the absorption, distribution, metabolism, and elimination of LY2452473.
This study is for research purposes only and is not intended to treat any medical condition.

开始日期2011-01-01

申办/合作机构

Eli Lilly & Co.

100 项与 TT-701 相关的临床结果

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100 项与 TT-701 相关的转化医学

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100 项与 TT-701 相关的专利（医药）

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8

项与 TT-701 相关的文献（医药）

2024-11-01·BIOMEDICINE & PHARMACOTHERAPY

Polypharmacological profiling across protein target families and cellular pathways using the multiplexed cell-based assay platform safetyProfiler reveals efficacy, potency and side effects of drugs

Article

作者: Popović, Lukša ; Wehr, Michael C ; Brankatschk, Ben ; Rossner, Moritz J. ; Palladino, Giulia ; Wehr, Michael C. ; Rossner, Moritz J

Selectivity profiling is key for assessing the pharmacological properties of multi-target drugs. We have developed a cell-based and barcoded assay encompassing ten druggable targets, including G protein-coupled receptors (GPCRs), receptor tyrosine kinases (RTKs), nuclear receptors, a protease as well as their key downstream pathways and profiled 17 drugs in living cells for efficacy, potency, and side effects. Notably, this multiplex assay, termed safetyProfiler assay, enabled the simultaneous assessment of multiple target and pathway activities, shedding light on the polypharmacological profile of compounds. For example, the neuroleptics clozapine, paliperidone, and risperidone potently inhibited primary targets DRD2 and HTR2A as well as cAMP and calcium pathways. However, while paliperidone and risperidone also potently inhibited the secondary target ADRA1A and mitogen-activated protein kinase (MAPK) downstream pathways, clozapine only exhibited mild antagonistic effects on ADRA1A and lacked MAPK inhibition downstream of DRD2 and HTR2A. Furthermore, we present data on the selectivity for bazedoxifene, an estrogen receptor antagonist currently undergoing clinical phase 2 trials for breast cancer, on MAPK signaling. Additionally, precise potency data for LY2452473, an androgen receptor antagonist, that completed a phase 2 clinical trial for prostate cancer, are presented. The non-selective kinase inhibitor staurosporine was observed to potently inactivate the two RTKs EGFR and ERBB4 as well as MAPK signaling, while eliciting stress-related cAMP responses. Our findings underscore the value of comprehensive profiling in elucidating the pharmacological properties of established and novel therapeutics, thereby facilitating the development of novel multi-target drugs with enhanced efficacy and selectivity.

2023-05-15·Rapid communications in mass spectrometry : RCM

Metabolic study of selective androgen receptor modulator LY2452473 in thoroughbred horses for doping control

Article

作者: Caveney, Marina Rodriguez ; M.P, Muhammed Ajeebsanu ; Laya, Saraswathy ; Subhahar, Michael Benedict ; Karakka Kal, Abdul Khader ; Philip, Moses ; Graiban, Fatma Mohammed ; Karatt, Tajudheen K. ; Sathiq, M. Anwar

Rationale:

Since 2010, there has been an increasing number of adverse analytical findings related to selective androgen receptor modulators (SARMs) in competitive sports. It emphasizes the importance of comprehensive doping control analytical procedures that are capable of detecting SARM misuse.

Methods:

In this study, it is described how LY2452473, a SARM, was metabolized in thoroughbred horses after a single‐dose oral administration and in vitro with equine liver microsome preparations. An investigation of the metabolism of LY2452473 in horses' urine, plasma, and hair matrices was carried out during the study. The plausible structures of the detected metabolites were postulated using high‐performance liquid chromatography‐high resolution mass spectrometry.

Results:

Under the experimental conditions 15 metabolites (12 phase I and three conjugates of phase I) were detected (M1–M15). The major phase I metabolites identified were formed by hydroxylation. Side‐chain dissociated and methylated metabolites were also detected. In phase II, the glucuronic acid and sulfonic acid conjugates of hydroxy LY2452473 were detected as the major metabolites. In vitro analysis has confirmed the presence of all metabolites found in vivo except for the methylated analogs M11 and M12. A peak concentration of LY2452473 (0.5 pg/mg) in proximal hair segments was achieved 4 weeks after administration, according to hair analysis.

Conclusions:

Data obtained will aid in identifying LY2452473 and related substances faster. Furthermore, the results will assist in checking for the illegal use of these substances in competitive sports.

2022-08-01·Journal of the Endocrine Society

Effect of Selective Androgen Receptor Modulator on Cholesterol Efflux Capacity, Size, and Subspecies of HDL Particles

Article

作者: Pencina, Karol M ; Vaisar, Tomas ; Sniderman, Allan D ; Sacks, Frank M ; Page, Stephanie T ; Cheng, Ming ; Furtado, Jeremy D ; Bhasin, Shalender ; Guo, Wen

Abstract:

Context:

Selective androgen receptor modulators (SARMs), because of their preferential muscle vs prostate selectivity, are being developed for muscle-wasting conditions. Oral SARMs suppress high-density lipoprotein cholesterol (HDL-C) but their effects on functional capacity and atherogenic potential of HDL particles are unknown.

Objective:

To determine the effects of an oral SARM (OPK-88004) on cholesterol efflux capacity, HDL particle number and size, apolipoprotein particle number and size and HDL subspecies

Methods:

We measured cholesterol efflux capacity (CEC); HDL particle number and size; APOB; APOA1; and protein-defined HDL subspecies associated with coronary heart disease (CHD) risk in men, who had undergone prostatectomy for low-grade prostate cancer during 12-week treatment with placebo or 1, 5, or 15 mg of an oral SARM (OPK-88004).

Results:

SARM significantly suppressed HDL-C (P < .001) but HDL particle size did not change significantly. SARM had minimal effect on CEC of HDL particles (change + 0.016, –0.036, +0.070, and –0.048%/µmol-HDL/L–1 at 0, 1, 5, and 15 mg SARM, P = .045). SARM treatment suppressed APOAI (P < .001) but not APOB (P = .077), and reduced APOA1 in HDL subspecies associated with increased (subspecies containing α2-macroglobulin, complement C3, or plasminogen) as well as decreased (subspecies containing APOC1 or APOE) CHD risk; relative proportions of APOA1 in these HDL subspecies did not change. SARM increased hepatic triacylglycerol lipase (HTGL) (P < .001).

Conclusion:

SARM treatment suppressed HDL-C but had minimal effect on its size or cholesterol efflux function. SARM reduced APOA1 in HDL subspecies associated with increased as well as decreased CHD risk. SARM-induced increase in HTGL could contribute to HDL-C suppression. These data do not support the simplistic notion that SARM-associated suppression of HDL-C is necessarily proatherogenic; randomized trials are needed to determine SARM’s effects on cardiovascular events.

100 项与 TT-701 相关的药物交易

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外链

KEGG	Wiki	ATC	Drug Bank
-	-	-	DB12573

研发状态

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适应症	最高研发状态	国家/地区	公司	日期
前列腺增生症	临床2期	美国	OPKO Health, Inc.	2018-02-21
勃起功能障碍	临床2期	美国	Eli Lilly & Co.	2010-10-01
终末期肾脏病	临床1期	美国	Prolor Biotech Ltd.	2022-08-22

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临床结果

适应症

分期

评价

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研究	分期	人群特征	评价人数	分组	结果	评价	发布日期


NCT02499497 (CTgov)	临床2期	前列腺癌	114	Placebo (Placebo)	製衊膚壓膚積鑰膚鏇願(簾製築範窪憲蓋糧鹹糧) = 繭選築觸膚構憲襯築膚構鬱淵糧襯選鹹鏇齋窪 (簾醖鹹網築艱鏇鏇窪鑰, 鏇衊廠膚壓淵顧範膚糧 ~ 願憲齋夢顧齋獵鬱齋顧) 更多	-	2021-09-28
				LY2452473 (LY2452473 Dose 1)	製衊膚壓膚積鑰膚鏇願(簾製築範窪憲蓋糧鹹糧) = 網餘網艱獵糧夢積淵鏇構鬱淵糧襯選鹹鏇齋窪 (簾醖鹹網築艱鏇鏇窪鑰, 襯艱艱餘淵顧憲繭願遞 ~ 選糧網鏇願衊鏇窪淵廠) 更多
NCT01160289 (CTgov)	临床2期	勃起功能障碍	410	LY2452473+Tadalafil (1 mg LY2452473 and 5 mg Tadalafil)	糧夢襯醖鏇鑰壓選廠網(壓觸範選蓋窪淵鏇範願) = 糧壓廠糧蓋簾衊願壓範鹹製窪餘鹽網鏇網蓋膚 (廠膚艱醖積願餘夢糧範, 鏇夢襯鏇選齋窪膚齋鹽 ~ 壓繭窪顧壓觸簾蓋壓選) 更多	-	2019-04-09
				LY2452473+Tadalafil (5 mg LY2452473 and 5 mg Tadalafil)	糧夢襯醖鏇鑰壓選廠網(壓觸範選蓋窪淵鏇範願) = 襯構淵鬱艱壓網壓構醖鹹製窪餘鹽網鏇網蓋膚 (廠膚艱醖積願餘夢糧範, 糧繭鏇觸壓襯鹹選構顧 ~ 網憲製膚衊餘築齋構鬱) 更多