神经生长因子和 artemin 是胰腺腺癌胰腺神经病变的旁分泌介质。

Nerve growth factor and artemin are paracrine mediators of pancreatic neuropathy in pancreatic adenocarcinoma.

机构信息

Department of Surgery, Klinikum Rechts der Isar, Technische Universität München, Munich, Germany.

出版信息

Ann Surg. 2010 May;251(5):923-31. doi: 10.1097/SLA.0b013e3181d974d4.

DOI:10.1097/SLA.0b013e3181d974d4

PMID:20395845

Abstract

OBJECTIVE

To further characterize the neurotrophic attributes of pancreatic cancer (PCa).

SUMMARY BACKGROUND DATA

PCa is characterized by neuropathic alterations which are resulting in pancreatic pain. To further characterize pancreatic neuropathy, we aimed: to analyze whether neuropathic alterations in PCa are only limited to the tumor-core or whether they are similarly encountered in neural structures in the noncancerous pancreas, to demonstrate whether PCa features neurotrophic attributes and finally to identify responsible neurotrophic molecules.

METHODS

Nerve density and area were quantified in normal pancreas (NP, n=45), histologically "normal" pancreas next to pancreatic cancer (NNPCa, n=61) and PCa (n=97). Growth-associated protein-43, nerve growth factor (NGF), and Artemin expressions were assessed by Immunohistochemistry, Western-Blot, and quantitative real time polymerase chain reaction-analyses. Isolated myenteric plexus of newborn rats were exposed to NP, NNPCa, and PCa tissue extracts and supernatants of Panc1 and T3M4 cancer cells with or without Artemin and NGF depletion, followed by neurite density analysis.

RESULTS

Dense neural networks and enlarged nerves were not only detected in PCa but were also present in NNPCa. Growth-associated protein-43, NGF, and Artemin expressions were absent/weak in NP, but increased in both NNPCa and PCa and were closely associated with intrapancreatic neuropathy. PCa and NNPCa tissue extracts and Panc1/T3M4 supernatants noticeably increased neurite density in myenteric plexus-cultures, which were attenuated by depletion of NGF and Artemin.

CONCLUSIONS

The neurotrophic effects of PCa extend into the peritumoral "normal" pancreatic areas without neuro-cancer interactions. The neurotrophic characteristics of PCa can be mimicked by in vitro analyses and reveal NGF and Artemin as potential key players in the generation of pancreatic neuropathy in PCa.

摘要

目的

进一步描述胰腺癌（PCa）的神经营养特性。

背景资料概要

PCa 的特征是神经病变改变，导致胰腺疼痛。为了进一步描述胰腺神经病变，我们旨在：分析 PCa 中的神经病变改变是否仅局限于肿瘤核心，还是同样存在于非癌胰腺的神经结构中；是否具有神经营养特性；并最终确定负责的神经营养分子。

方法

通过免疫组织化学、Western blot 和定量实时聚合酶链反应分析，在正常胰腺（NP，n=45）、紧邻胰腺癌的组织学“正常”胰腺（NNPCa，n=61）和 PCa （n=97）中定量神经密度和面积。生长相关蛋白-43、神经生长因子（NGF）和 Artemin 的表达。将新生大鼠的肌间神经丛暴露于 NP、NNPCa 和 PCa 组织提取物以及 Panc1 和 T3M4 癌细胞的上清液中，并用 Artemin 和 NGF 耗尽，然后进行神经突密度分析。

结果

密集的神经网络和增大的神经不仅在 PCa 中检测到，而且在 NNPCa 中也存在。NP 中生长相关蛋白-43、NGF 和 Artemin 的表达缺失/微弱，但在 NNPCa 和 PCa 中均增加，与胰内神经病变密切相关。PCa 和 NNPCa 组织提取物和 Panc1/T3M4 上清液明显增加肌间神经丛培养物中的神经突密度，而耗尽 NGF 和 Artemin 则减弱了这种作用。

结论

PCa 的神经营养作用延伸到肿瘤周围的“正常”胰腺区域，而无需神经-癌症相互作用。PCa 的神经营养特性可以通过体外分析来模拟，并揭示 NGF 和 Artemin 作为 PCa 中胰腺神经病变发生的潜在关键因素。

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神经生长因子和 artemin 是胰腺腺癌胰腺神经病变的旁分泌介质。

Nerve growth factor and artemin are paracrine mediators of pancreatic neuropathy in pancreatic adenocarcinoma.

机构信息

出版信息

OBJECTIVE

SUMMARY BACKGROUND DATA

METHODS

RESULTS

CONCLUSIONS

目的

背景资料概要

方法

结果

结论

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