Trevena Announces Preclinical TRV045 Data Providing Insight Into Novel Mechanism of Analgesic Effect in Chronic Neuropathic Pain Model and Demonstrating Statistically Significant Anti-Seizure Activity in Epilepsy Models
Trevena Announces Preclinical TRV045 Data Providing Insight Into Novel Mechanism of Analgesic Effect in Chronic Neuropathic Pain Model and Demonstrating Statistically Significant Anti-Seizure Activity in Epilepsy Models
TRV045 shows potential for sustained, long-term analgesic effect in preclinical model of neuropathic pain, with no evidence of receptor desensitization
TRV045在神經病理性疼痛的實驗模型中表現出有潛力的持續、長期止痛效果,沒有受體失靈的證據。
TRV045 demonstrates statistically significant, dose-dependent increase in measures of seizure threshold and shows seizure protection in validated preclinical models
TRV045在驗證的實驗模型中呈現出劑量依賴的顯著提高癲癇閾值的效果,並在校準的實驗模型中顯示出抗癲癇作用。
TRV045 did not show a statistically significant effect in preliminary preclinical model of epileptogenesis, but results provide direction for additional NIH-initiated studies in epilepsy prevention and treatment
在早期癲癇模型的初步實驗中,TRV045沒有顯示出統計學上顯著的效果,但結果爲研究預防和治療癲癇的其他NIH啓動的研究提供了方向。
CHESTERBROOK, Pa., June 20, 2024 (GLOBE NEWSWIRE) -- Trevena, Inc. (Nasdaq: TRVN), a biopharmaceutical company focused on the development and commercialization of novel medicines for patients with central nervous system (CNS) disorders, announced today preclinical data from two separate research collaborations. The first from a series of experiments conducted in collaboration with scientists at Virginia Commonwealth University and presented at the recent annual meeting of the American Society for Pharmacology and Experimental Therapeutics in May 2024. These studies examined the cellular mechanism of analgesic effects of TRV045, a novel S1P1 receptor modulator, in a mouse model of chemotherapy-induced peripheral neuropathy (CIPN). The second set of studies was from a separate, ongoing collaboration, with the NIH-supported Epilepsy Therapy Screening Program (ETSP) which studied the use of TRV045 in three different preclinical models examining its potential effects on acute seizure protection and its potential ability to modify seizure development, or epileptogenesis.
賓夕法尼亞州切斯特布魯克,2024年6月20日(全球新聞通訊社)—Trevena公司(納斯達克:TRVN)是一家專注於開發和商業化面向中樞神經系統疾病患者的新型藥物的生物製藥公司,今天宣佈了來自兩項獨立研究合作的臨床前數據。第一個是與弗吉尼亞聯邦大學科學家合作進行的一系列實驗的第一部分,並在2024年5月的美國藥理學和實驗治療學協會年會上進行了報告。這些研究考察了TRV045的止痛效果的細胞機制,TRV045是一種新型的S1P1受體調節劑,在化療誘導周圍神經病理(CIPN)的小鼠模型中使用。第二組研究來自另一項正在進行中的合作研究,這是與NIH支持的癲癇治療篩選計劃(ETSP)的合作,研究了TRV045在三個不同的預臨床模型中的使用,檢查其潛在的急性抗癲癇作用和其改變癲癇的發生或癲癇發展能力。
Data in Preclinical Neuropathic Pain Model
臨床前神經病理性疼痛模型中的數據
"TRV045 showed clear and sustained analgesic-like properties in animal models of neuropathic pain, while showing no evidence of peripheral lymphopenia," said Dana Selley, PhD, Professor of Pharmacology and Toxicology at Virginia Commonwealth University. "Our studies provide molecular insights into these actions and demonstrate that TRV045 behaves differently from current S1P modulators such as fingolimod at the S1P1 receptor in CNS pain processing centers, where TRV045 caused neither desensitization of receptor function nor downregulation of receptor protein. These data suggest that TRV045 exerts its efficacy through agonist signaling."
“TRV045在神經病理性疼痛的動物模型中呈現出明顯和持久的止痛效果,同時沒有外周淋巴細胞減少的證據,”Virginia Commonwealth University的藥理學和毒理學教授Dana Selley博士說。“我們的研究提供了這些行動的分子洞見,並證明了TRV045在中樞神經系統疼痛處理中的S1P1受體調節劑的行爲與當前的類似物,如Fingolimod在CNS疼痛處理中的S1P1受體失靈或受體蛋白的下調沒有相同之處。這些數據表明,TRV045通過激動劑信號發揮其功效。”
This newly reported preclinical data, presented as a poster at the recent annual meeting of the American Society for Pharmacology and Experimental Therapeutics in May 2024, provides further insight into TRV045's mechanism of action and its potential as a differentiated long-term therapeutic for neuropathic pain. In this study, TRV045 did not cause S1P1R functional desensitization or S1PR1 protein reduction despite repeated dosing over 14 days. In contrast, fingolimod, an approved S1PR modulator, demonstrated both significant S1P1R functional desensitization and protein reduction in this same model. As a result, the Company believes TRV045 may represent a differentiated mechanism to provide sustained S1P1R agonism and analgesic effect, unlike other S1PR modulators, such as fingolimod, that demonstrate initial agonism but long-term functional antagonism due to S1PR desensitization and protein reduction.
這項新報告的臨床前數據,在2024年5月的美國藥理學和實驗治療學協會年會上以海報的形式發表,進一步闡明瞭TRV045的作用機制及其作爲神經病理性疼痛長期治療方案的潛力。在這項研究中,TRV045在14天重複給藥後未引起S1P1R功能失靈或S1PR1蛋白質的減少。相比之下,通過了S1PR模擬劑定型的Fingolimod,在這個模型中表現出明顯的S1P1R功能失靈和蛋白質的減少。因此,公司認爲TRV045可能代表了一種不同於其他S1PR調節劑(如Fingolimod)的機制,提供持續的S1P1R激動作用和止痛效果,後者在長期使用中由於S1PR失靈和蛋白質降低而表現出功能拮抗性。
In this new study, S1PR1 functional desensitization was measured by S1PR1 stimulated 35SGTPgS binding in membrane homogenates of spinal cord prepared from drug treated mice. Repeated fingolimod (1 mg/kg, once a day for 14 days) dosing decreased such 35SGTPgS binding by approximately 70% compared with vehicle, while repeated TRV045 oral dosing (10 mg/kg, once a day for 14 days) had no effect. S1PR1 protein expression measured by Western immunoblotting indicated that repeated fingolimod treatment caused an approximately 30% reduction in S1P1R protein in spinal cord while repeated TRV045 treatment had no effect. Similar effects were seen in the region of the periaqueductal gray; both of these regions play important roles in pain transmission. We believe these studies indicate that, unlike fingolimod, TRV045 does not cause S1PR1 protein reduction or S1PR1 functional desensitization, suggesting that sustained TRV045 agonism is the underlying mechanism for its analgesic effects.
在這項新研究中,S1PR1功能失靈的衡量標準是在藥物處理的小鼠脊髓膜包裹的膜分離物中S1PR1刺激的SGTPgS結合。重複給予Fingolimod(1毫克/千克/每天14天)可將其SGTPgS結合減少約70%,與車組相比,而重複的TRV045口服給藥(10毫克/千克/每天14天)沒有影響。通過Western免疫印跡法測量的S1PR1蛋白表達表明,重複的Fingolimod治療導致脊髓中S1P1R蛋白質降低約30%,而重複的TRV045治療沒有影響。同樣的影響出現在中腦腹水管灰質的區域中;這兩個區域在疼痛傳遞中發揮重要作用。我們相信這些研究表明,與Fingolimod不同,TRV045不會導致S1PR1蛋白降解或S1PR1功能逐漸失靈,這表明TRV045的持續激動是其止痛效果的基本機制。35TRV045在脊髓膜包裹的膜製備物中的SGTPgS結合程度用於衡量S1PR1功能失靈。連續口服Fingolimod(1毫克/千克,每天一次,持續14天)導致S1PR1刺激的SGTPgS結合下降約70%,而連續口服TRV045(10毫克/千克,每天一次,持續14天)沒有影響。通過Western免疫印跡法測量的S1PR1蛋白表達表明,重複Fingolimod治療引起脊髓S1P1R蛋白質降低約30%,而重複TRV045治療沒有影響。這兩個區域在疼痛傳遞中發揮着重要作用。我們相信這些研究表明,與Fingolimod不同,TRV045不會導致S1PR1蛋白降解或S1PR1功能逐漸失靈,這表明TRV045的持續激動是其止痛效果的基本機制。35TRV045在脊髓膜製備物中的S1PR1刺激的SGTPgS結合程度用於衡量S1PR1功能失靈。再次內容重複了內容7,已在7中翻譯。
Trevena has previously reported that, in a validated mouse model of CIPN, oral administration of TRV045 (1 mg/kg, 3 mg/kg, and 10 mg/kg) reduced mechanical and cold stimulus-evoked nociception in a statistically significant, dose-related manner (at the 3 mg/kg and 10 mg/kg doses only). These effects were present after acute single dose administration of TRV045 in both male and female mice and after repeated treatment (once daily for 7 days).
Trevena此前曾報道,在驗證的小鼠CIPN模型中,口服TRV045(分別爲1毫克/千克,3毫克/千克和10毫克/千克)以劑量相關的方式顯著減少機械和冷刺激誘發的疼痛感。這些效應在單次劑量給藥後、在雄性和雌性小鼠中以及在重複治療(每天一次,連續7天)的情況下都存在。
Trevena has previously observed that TRV045, unlike other known S1P-targeted compounds, exerted these analgesic effects in the absence of any reduction in circulating peripheral lymphocytes, suggesting that TRV045's analgesic effects may not be due to receptor down-regulation.
Trevena此前曾觀察到TRV045,與其他已知的S1P靶向化合物不同,產生這些止痛效果而不降低外周循環淋巴細胞,這表明TRV045的止痛效果可能不是由於受體下調。
Data in Preclinical Epilepsy Models
臨床前癲癇模型中的數據
"The data observed with TRV045 in the ETSP study program showed a clear and strong anticonvulsant effect across a range of animal models. Current pharmacotherapy options in epilepsy are limited by incomplete anti-seizure medication efficacy and tolerance", said Alexander Rotenberg, MD, PhD, Professor of Neurology at Boston Children's Hospital and Harvard Medical School. "With its unique mechanism of action, TRV045 has the potential to open an important new approach to epilepsy treatment."
“ETSP研究計劃中觀察到的TRV045數據在多個動物模型中顯示出明顯和強有力的抗驚厥作用。目前癲癇的藥物治療選擇受到不完全的抗癲癇藥物療效和耐受性的限制,”波士頓兒童醫院和哈佛醫學院的神經病學教授Alexander Rotenberg博士說,“TRV045具有獨特的作用機制,具有開創癲癇治療的重要新途徑的潛力。”
In a preclinical study using a validated model of seizure induction in mice, known as the intravenous Pentylenetetrazol (ivPTZ) Seizure Threshold Test, one of four doses of TRV045 (5, 10, 20 or 30mg/kg) or vehicle was orally administered to ten mice per dosage level. At one hour after test drug administration, 0.5% PTZ solution, a known seizure-inducing compound, was administered via iv infusion. Outcome measures included time to the first myoclonic (whole-body) twitch, and time to generalized clonus (seizure).
在用小鼠誘導癲癇的經靜脈戊****(ivPTZ)癲癇閾值測試的驗證模型中,使用TRV045的四個劑量(5、10、20或30mg/kg)或車組口服。在試驗藥物給藥後一個小時,通過iv輸注給予0.5%的PTZ溶液,一種已知的誘導癲癇的化合物。結果的指標包括第一個肌性(全身)抽搐的時間和大發作(癲癇)的時間。
At the 30mg/kg dose, TRV045 demonstrated a statistically significant increase in time to first myoclonic twitch (31.6 seconds TRV045 vs 26.0 seconds vehicle, p=0.02). This dose of TRV045 also demonstrated an increase in time to generalized clonus (33.9 seconds TRV045, vs 28.7 seconds vehicle, p=0.056).
在30mg/kg給藥劑量下,TRV045顯示出顯著增加第一個肌性抽搐的時間(31.6秒TRV045 vs。26.0秒車組,p = 0.02)。該劑量的TRV045還顯示出大發作時間的增加(33.9秒TRV045 vs。28.7秒車組,p = 0.056)。
A separate study used a validated model of acute anti-seizure effect in rats, the maximal electroshock (MES) model. In this test, 60 Hz of alternating current (150 mA) is delivered for 0.2 sec by corneal electrodes after application of local anesthesia. Protection from MES-induced seizures is shown by abolition of the hindlimb tonic extensor component of the seizure episode. Rats (N=8 per group) were tested at four doses of TRV045, administered by intra-peritoneal (IP) injection (10, 15, 20 and 30 mg/kg). There was a dose-dependent protection observed across the dose range, reaching 7 of 8 rats protected at the 30 mg/kg dose level, and an estimated effective dose for 50% of the population (ED50) of 18 mg/kg.
另一項研究採用大鼠的急性抗癲癇模型,即最大電擊(MES)模型。在這個測試中,經局部麻醉後,對背側延髓和/或下丘腦進行腦電圖記錄,然後通過角膜電極提供60赫茲的交流電(150毫安)的0.2秒衝激。再進行一次電擊時檢查保護非常有用,可以消除癲癇發作的後期短暫的肌肉肌肉痙攣。在四個TRV045劑量(10、15、20和30 mg/kg)中,大鼠通過腹腔注射(IP)給予。劑量範圍內觀察到了劑量依賴性的保護作用,在30 mg/kg劑量水平達到了8只大鼠中7只的保護作用,而50%人口的預計有效劑量(ED50)爲18 mg/kg。
Finally, TRV045 was screened in a preliminary study to evaluate the potential for TRV045 to exert an antiepileptogenic effect, or to prevent the emergence of epilepsy. In this model, rats underwent repeated low-dose IP injection of kainic acid to induce status epilepticus (SE), which leads to the development of spontaneous recurring seizures weeks later. Administration of test compounds immediately after the induction of SE, and before the development of spontaneous seizures, provides insight into the potential disruption of the process of seizure development, or epileptogenesis. One hour after SE induction, 24 rats were randomized into two equal sized groups and injected with a dose of either TRV045 (15 mg/kg, IP) or vehicle solution three times per day for 7 days. All animals were then surgically fitted with EEG monitoring devices to assess later spontaneous seizure activity through automated assessment. At two time intervals, weeks 4-6 and weeks 8-10 following induction of SE, seizure activity was then measured. At the latest time interval, weeks 8-10, two animals in the TRV045 group (17%) were seizure free, while no animals in the vehicle group reached this endpoint. However, there was no statistically significant difference in the outcomes of seizure frequency, seizure burden or seizure severity between TRV045 and vehicle treated groups at either observation interval.
最後,TRV045在初步研究中進行了篩選,以評估其對癲癇發作的抗癲癇作用或預防癲癇的發生。在這個模型中,大鼠經歷了佐劑醛酸低劑量的IP注射,以誘導狀態性癲癇(SE),這導致數週後發生反覆性發作性癲癇。在SE誘導後立即給藥並在發生自發性癲癇之前,可以提供有關疾病發展或癲癇發生過程的干預潛力的信息。SE誘導後一小時,24只大鼠被隨機分爲兩組,並分別注射TRV045(15 mg/kg,IP)或車組溶液一天三次連續7天。然後所有動物都被植入EEG監測設備,以通過自動評估評估後來的自發性癲癇活動。在兩個時段,即SE誘導後的第4-6周和第8-10周,觀察到癲癇活動。在最後一個時間間隔,即第8-10周,TRV045組中有2只動物(17%)沒有癲癇發作,而車組中沒有動物達到了這一結束點。但是,在TRV045和車組治療組之間,無論是觀察間隔還是癲癇頻率、癲癇負擔或癲癇嚴重度的結果都沒有統計學差異。
Taken together, the results of these studies are consistent with prior data indicating that TRV045 showed an anti-seizure effect in validated animal models of pharmaco-resistant epilepsy. Based on these data, the ETSP plans to initiate additional studies of the anti-seizure potential of TRV045. Although the initial assessment of the potential anti-epileptogenic effect of TRV045 did not demonstrate a statistically significant difference on the outcomes studied here, these results will assist in subsequent considerations of other dose and treatment duration in future seizure prevention studies.
總之,這些研究的結果與以前的數據一致,表明TRV045在已驗證的藥物治療耐藥性癲癇的動物模型中顯示出抗癲癇作用。根據這些數據,ETSP計劃啓動有關TRV045抗癲癇潛力的其他研究。雖然TRV045的潛在抗癲癇效果的初始評估未在此處所研究的結果上顯示出統計學上顯著的差異,但這些結果將有助於後續考慮在未來的癲癇預防研究中使用其他劑量和治療持續時間。
About Trevena
關於trevena公司
Trevena, Inc. is a biopharmaceutical company focused on the development and commercialization of innovative medicines for patients with CNS disorders. The Company has one approved product in the United States, OLINVYK (oliceridine) injection, indicated in adults for the management of acute pain severe enough to require an intravenous opioid analgesic and for whom alternative treatments are inadequate. The Company's novel pipeline is based on Nobel Prize winning research and includes three differentiated investigational drug candidates: TRV045 for diabetic neuropathic pain and epilepsy, TRV250 for the acute treatment of migraine and TRV734 for maintenance treatment of opioid use disorder.
Trevena,Inc.是一家專注於開發和商業化CNS疾病患者創新藥品的生物製藥公司。該公司在美國獲得一種批准的產品,OLINVYK (oliceridine)注射劑,適用於成人管理需要靜脈阿片類鎮痛劑控制的嚴重急性疼痛和未獲得有效替代治療的情況。該公司的新型候選藥物基於諾貝爾獎獲獎研究,幷包括三個不同的研究性藥物候選:TRV045用於糖尿病神經病性疼痛和癲癇,TRV250用於急性偏頭痛的治療和TRV734用於阿片類物質使用障礙的維護治療。關於TRV045
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About TRV045
TRV045是一種新穎、高度選擇性的鞘氨醇-1-磷酸酯亞型1(S1P)受體調節劑,正在開發中作爲糖尿病周圍神經病變所致的急性和慢性神經病痛的潛在治療藥物。通過與國家衛生研究院的合作,Trevena公司還在探索TRV045作爲治療癲癇的潛在藥物。
TRV045 is a novel, highly selective sphingosine-1-phosphate subtype 1 (S1P1) receptor modulator being developed as a potential treatment for acute and chronic neuropathic pain secondary to diabetic peripheral neuropathy. Through a collaboration with the National Institutes of Health, Trevena is also exploring TRV045 as a potential treatment for epilepsy.
S1P受體分佈於全身各處,包括中樞神經系統,在那裏它們被認爲在調節神經遞質和膜興奮性方面發揮作用。1Trevena的發現工作已經鑑定出一系列高度選擇S1P受體熒光化合物。TRV045在糖尿病周圍神經病變和化療誘導的周圍神經病變的非臨床模型中逆轉熱超敏感性,這是神經病痛的一種衡量標準。在非臨床研究中,TRV045不與淋巴細胞減少有關,並且在藥理學活性劑量以上不產生血壓、心率或呼吸功能的變化。TRV045是一種研究性產品,尚未獲得FDA批准。
S1P receptors are located throughout the body, including the central nervous system, where they are believed to play a role in modulating neurotransmission and membrane excitability.
本新聞稿中關於公司未來期望、計劃和前景的任何聲明,包括關於公司的業務戰略、未來運作、治療藥物候選物的臨床開發和試驗、未來產品候選物的計劃等以及任何含有"預計"、"相信"、"估計"、"期望"、"打算"、"可能"、"計劃"、"預測"、"項目"、"建議"、"目標"、"潛在"、"將要"、"可以"、"應該"、"繼續"等類似表述的聲明構成《1995年私人證券訴訟改革法案》規定的前瞻性聲明。實際結果可能因爲多種重要因素而與這些前瞻性聲明不同,包括:圍繞公司產品管線不斷推進的預期;公司產品候選物的潛在安全性和療效以及它們的監管和臨床開發;公司意圖追求OLINVYK的戰略替代方案以及此類戰略替代方案提供股東價值的能力;公司決定減少OLINVYK商業支持的預期財務和業務影響;公司的臨床試驗或任何未來任何研究型藥物候選物的試驗的狀態、時間、成本、結果和解釋的不確定性;進行臨床試驗的不確定性;對監管互動、提交和批准的期望,包括公司與FDA的討論評估;可用資金;與公司知識產權有關的不確定性;與其他可能影響公司治療候選物和批准產品的可用性或商業潛力的事項有關的不確定性;以及在公司的年度10-K表格和每季度的10-Q表格中列出的風險因素以及公司不時向SEC提交的其他文件中討論的其他因素。此外,本新聞稿中包含的前瞻性聲明僅代表公司的意見,截至本文之日。公司預計隨後的事件和發展可能會導致公司的觀點發生變化。然而,雖然公司可能會選擇在將來某個時候更新這些前瞻性聲明,但是公司明確放棄在法律規定的情況下進行更新的義務。
Trevena's discovery efforts have identified a family of compounds that are highly selective for the S1P1 receptor. TRV045 reversed thermal hyperalgesia, a measure of neuropathic pain, in nonclinical models of diabetic peripheral neuropathy and chemotherapy-induced peripheral neuropathy. TRV045 was not associated with lymphopenia and produced no changes in blood pressure, heart rate, or respiratory function at or above pharmacologically active doses in nonclinical studies. TRV045 is an investigational product and is not yet approved by the FDA.
Bob Yoder1高級副總裁兼首席商務官
Forward-Looking Statements
前瞻性聲明
Any statements in this press release about future expectations, plans and prospects for the Company, including statements about the Company's strategy, future operations, clinical development and trials of its therapeutic candidates, plans for potential future product candidates and other statements containing the words "anticipate," "believe," "estimate," "expect," "intend," "may," "plan," "predict," "project," "suggest," "target," "potential," "will," "would," "could," "should," "continue," and similar expressions, constitute forward-looking statements within the meaning of The Private Securities Litigation Reform Act of 1995. Actual results may differ materially from those indicated by such forward-looking statements as a result of various important factors, including: the expectations surrounding the continued advancement of the Company's product pipeline; the potential safety and efficacy of the Company's product candidates and their regulatory and clinical development; the Company's intention to pursue strategic alternatives for OLINVYK and the ability of any such strategic alternative to provide shareholder value; the expected financial and operational impacts of the Company's decision to reduce commercial support for OLINVYK; the status, timing, costs, results and interpretation of the Company's clinical trials or any future trials of any of the Company's investigational drug candidates; the uncertainties inherent in conducting clinical trials; expectations for regulatory interactions, submissions and approvals, including the Company's assessment of discussions with FDA; available funding; uncertainties related to the Company's intellectual property; uncertainties related to other matters that could affect the availability or commercial potential of the Company's therapeutic candidates and approved product; and other factors discussed in the Risk Factors set forth in the Company's Annual Report on Form 10-K and Quarterly Reports on Form 10-Q filed with the Securities and Exchange Commission (SEC) and in other filings the Company makes with the SEC from time to time. In addition, the forward-looking statements included in this press release represent the Company's views only as of the date hereof. The Company anticipates that subsequent events and developments may cause the Company's views to change. However, while the Company may elect to update these forward-looking statements at some point in the future, it specifically disclaims any obligation to do so, except as may be required by law.
trevena公司
For more information, please contact:
更多信息,請聯繫:
Company Contact:
Bob Yoder
SVP and Chief Business Officer
Trevena, Inc.
(610) 354-8840
公司聯繫人:
Bob Yoder
高級副總裁兼首席業務官
trevena, Inc.
(610) 354-8840
譯文內容由第三人軟體翻譯。