The microenvironment in chronic pancreatitis and pancreatic cancer induces neuronal plasticity

Demir, I.; Go, Ceyhan; Rauch, Ulrich; Altıntaş, Burak; Klotz, Markus; Mw, Müller; Büchler, MW; Frieß, Helmut; Kh, Schäfer

doi:10.1111/j.1365-2982.2009.01428.x

Cited by 61 publications

(72 citation statements)

References 35 publications

(86 reference statements)

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“…14 The intrapancreatic microenvironment in patients with chronic pancreatitis and PanCa induces neurite outgrowth, complex branching patterns, perikaryonal hypertrophy, and increased glial density of DRGs in vitro, which play a key role in the generation of pancreatic neuropathy and neuroplasticity. 28 The present study described an interesting phenomenon in which regeneration of neurites is increased and the SCs migration outline is shrunk to a similar degree in newly formed hyperglycemic tumor microenvironments. The increased neurite regeneration is extended directly toward and interacts with PanCa cancer, which is also extended toward DRGs.…”

Section: Discussionmentioning

confidence: 80%

Hyperglycemic tumor microenvironment induces perineural invasion in pancreatic cancer

Ma²,

Han

et al. 2015

Cancer Biology & Therapy

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Glucose intolerance and frank diabetes mellitus (DM) can increase the risk of cancer death for pancreatic cancer (PanCa). However, the mechanism by which these factors influence cancer deaths is not clear. In this study, we established a model system to mimic the pancreatic tumor microenvironment in patients with DM to examine the biological behavior of PanCa cells and nerves in cell culture and in animals. Our in vitro studies demonstrated that hyperglycemia promoted the proliferation and invasion of PanCa cell lines and upregulated the expression of nerve growth factor in these cells. Also, the migration of Schwann cells (SCs) was inhibited by hyperglycemia and neurites exerted pathological regeneration. Furthermore, the interaction between the PanCa cells and nerves was enhanced in the tumor microenvironment. We further showed that hyperglycemia promoted the perineural invasion (PNI) of PanCa in vivo. These data suggest that DM worsens the prognosis of PanCa because of aggravated PNI. Thus, our study illustrates a novel mechanism by which hyperglycemia decreases survival in patients with PanCa.

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Section: Discussionmentioning

confidence: 80%

Hyperglycemic tumor microenvironment induces perineural invasion in pancreatic cancer

Ma²,

Han

et al. 2015

Cancer Biology & Therapy

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“…Depending on the concentration to be used in the assay, the final concentration of the extract or supernatant in the neuronal medium should be 100 µg/ml 5,8 .…”

Section: Aliquot Extracts and Cell Supernatantsmentioning

confidence: 99%

“…Such indicators can easily be derived from adequate in vitro models in which isolated cell subtypes from the complex microenvironment of an in vivo system can be selectively cocultured in a heterotypic manner [4][5][6][7] . The modulation of molecular targets in such a heterotypic culture setting is on average technically less cumbersome, faster, and can therefore aid in the prefiltering of worthwhile targets for verification in in vivo studies.…”

Section: Introductionmentioning

confidence: 99%

“…Here, neurons derived from newborn rat dorsal root ganglia (DRG) or myenteric plexus (MP) were exposed to tissue extracts from surgically resected PCa or CP tissues specimens and compared to those cultured in normal human pancreas (NP) tissue extracts 5 . Instead of tissue extracts, one can also use cell line supernatants to study the impact of selected cell types on neuroplasticity.…”

Section: Introductionmentioning

confidence: 99%

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Simulating Pancreatic Neuroplasticity: <em>In Vitro</em> Dual-neuron Plasticity Assay

Demir

Tieftrunk

Schäfer

et al. 2014

JoVE

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Neuroplasticity is an inherent feature of the enteric nervous system and gastrointestinal (GI) innervation under pathological conditions. However, the pathophysiological role of neuroplasticity in GI disorders remains unknown. Novel experimental models which allow simulation and modulation of GI neuroplasticity may enable enhanced appreciation of the contribution of neuroplasticity in particular GI diseases such as pancreatic cancer (PCa) and chronic pancreatitis (CP). Here, we present a protocol for simulation of pancreatic neuroplasticity under in vitro conditions using newborn rat dorsal root ganglia (DRG) and myenteric plexus (MP) neurons. This dual-neuron approach not only permits monitoring of both organ-intrinsic and -extrinsic neuroplasticity, but also represents a valuable tool to assess neuronal and glial morphology and electrophysiology. Moreover, it allows functional modulation of supplied microenvironmental contents for studying their impact on neuroplasticity. Once established, the present neuroplasticity assay bears the potential of being applicable to the study of neuroplasticity in any GI organ. Video LinkThe video component of this article can be found at

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“…However, the study of these morphological alterations in a functional manner is limited by the still ongoing lack of animal models that exhibit similar neuroplastic-neuropathic alterations. Nonetheless, in recent in vitro models, stimulation of dorsal root ganglia neurons with pancreatic tissue extracts of resected CP patients could mimic the increased neural density and hypertrophy or neurons (14). In the same setting, the blockade of the neurotrophic factor neurturin, similar to the blockade of NGF or TGF-beta-1, could suppress the neurotrophic potential of CP extracts (17).…”

Section: Morphological Alterationsmentioning

confidence: 99%

Pathogenesis and Treatment of Pain in Chronic Pancreatitis

Olesen

Tieftrunk²,

Ceyhan³

et al.

The Pancreapedia: Exocrine Pancreas Knowledge Base

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The microenvironment in chronic pancreatitis and pancreatic cancer induces neuronal plasticity

Cited by 61 publications

References 35 publications

Hyperglycemic tumor microenvironment induces perineural invasion in pancreatic cancer

Hyperglycemic tumor microenvironment induces perineural invasion in pancreatic cancer

Simulating Pancreatic Neuroplasticity: <em>In Vitro</em> Dual-neuron Plasticity Assay

Pathogenesis and Treatment of Pain in Chronic Pancreatitis

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