在大鼠内侧半月板撕裂模型中，使用他尼珠单抗抑制神经生长因子会影响负重及随后的软骨损伤。

Nerve growth factor inhibition with tanezumab influences weight-bearing and subsequent cartilage damage in the rat medial meniscal tear model.

作者信息

LaBranche Timothy P, Bendele Alison M, Omura Brian C, Gropp Kathryn E, Hurst Susan I, Bagi Cedo M, Cummings Thomas R, Grantham Lonnie E, Shelton David L, Zorbas Mark A

机构信息

Pfizer Inc, Cambridge, Massachusetts, USA.

Blueprint Medicines, Cambridge, Massachusetts, USA.

出版信息

Ann Rheum Dis. 2017 Jan;76(1):295-302. doi: 10.1136/annrheumdis-2015-208913. Epub 2016 Jul 5.

DOI:10.1136/annrheumdis-2015-208913

PMID:27381034

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5264211/

Abstract

OBJECTIVE

To investigate whether the effects of nerve growth factor (NGF) inhibition with tanezumab on rats with medial meniscal tear (MMT) effectively model rapidly progressive osteoarthritis (RPOA) observed in clinical trials.

METHODS

Male Lewis rats underwent MMT surgery and were treated weekly with tanezumab (0.1, 1 or 10 mg/kg), isotype control or vehicle for 7, 14 or 28 days. Gait deficiency was measured to assess weight-bearing on the operated limb. Joint damage was assessed via histopathology. A second arm, delayed onset of treatment (starting 3-8 weeks after MMT surgery) was used to control for analgesia early in the disease process. A third arm, mid-tibial amputation, evaluated the dependency of the model on weight-bearing.

RESULTS

Gait deficiency in untreated rats was present 3-7 days after MMT surgery, with a return to normal weight-bearing by days 14-28. Prophylactic treatment with tanezumab prevented gait deficiency and resulted in more severe cartilage damage. When onset of treatment with tanezumab was delayed to 3-8 weeks after MMT surgery, there was no increase in cartilage damage. Mid-tibial amputation completely prevented cartilage damage in untreated MMT rats.

CONCLUSIONS

These data suggest that analgesia due to NGF inhibition during the acute injury phase is responsible for increased voluntary weight-bearing and subsequent cartilage damage in the rat MMT model. This model failed to replicate the hypotrophic bone response observed in tanezumab-treated patients with RPOA.

摘要

目的

研究用他奈单抗抑制神经生长因子（NGF）对内侧半月板撕裂（MMT）大鼠的影响是否能有效模拟在临床试验中观察到的快速进展性骨关节炎（RPOA）。

方法

雄性Lewis大鼠接受MMT手术，每周用他奈单抗（0.1、1或10 mg/kg）、同型对照或赋形剂治疗7、14或28天。测量步态缺陷以评估手术肢体的负重情况。通过组织病理学评估关节损伤。第二组，延迟治疗开始时间（MMT手术后3 - 8周开始）用于控制疾病早期的镇痛作用。第三组，胫骨中段截肢，评估该模型对负重的依赖性。

结果

未治疗的大鼠在MMT手术后3 - 7天出现步态缺陷，到第14 - 28天恢复正常负重。用他奈单抗进行预防性治疗可预防步态缺陷，并导致更严重的软骨损伤。当他奈单抗治疗开始时间延迟至MMT手术后3 - 8周时，软骨损伤没有增加。胫骨中段截肢完全预防了未治疗的MMT大鼠的软骨损伤。

结论

这些数据表明，在急性损伤期由于NGF抑制产生的镇痛作用导致大鼠MMT模型中自愿负重增加及随后的软骨损伤。该模型未能复制在接受他奈单抗治疗的RPOA患者中观察到的骨萎缩反应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/73a3/5264211/61ecc1949869/annrheumdis-2015-208913f01.jpg

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在大鼠内侧半月板撕裂模型中，使用他尼珠单抗抑制神经生长因子会影响负重及随后的软骨损伤。

Nerve growth factor inhibition with tanezumab influences weight-bearing and subsequent cartilage damage in the rat medial meniscal tear model.

作者信息

LaBranche Timothy P, Bendele Alison M, Omura Brian C, Gropp Kathryn E, Hurst Susan I, Bagi Cedo M, Cummings Thomas R, Grantham Lonnie E, Shelton David L, Zorbas Mark A

机构信息

Pfizer Inc, Cambridge, Massachusetts, USA.

Blueprint Medicines, Cambridge, Massachusetts, USA.