Nerve growth factor exerts differential effects on the growth of human pancreatic cancer cells

Z. W. Zhu, H. Friess, L. Wang, T. Bogardus, Murray Korc, J. Kleef, M. W. Büchler

Research output: Contribution to journalArticle

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Abstract

Nerve growth factor (NGF) exerts both stimulatory and inhibitory effects on neuronal and certain nonneuronal tumors with the effect based on the type of tumor. We investigated NGF and its receptors (TrkA and p75) in pancreatic cancer cells (PANC-1, MIA-PaCa-2, CAPAN-1, ASPC-1, and T3M4) by reverse transcription-PCR, Western blot analysis, NGF ELISA, and growth assays. NGF mRNA was present at comparable levels in all five pancreatic cancer cell lines. TrkA expression was relatively high in PANC-1 and MIA-PaCa-2 cells and low in CAPAN-1, ASPC-1, and T3M4 cells, p75 expression was high in PANC-1, MIA-PaCa-2, and T3M4 cells, moderate in CAPAN-1, and low in ASPC-1 cells. By ELISA assay, the intracellular NGF content in all cell lines was ∼40 pg/106 cells. NGF content increased significantly in PANC-1 and MIA-PaCa-2 cells when these cells were cultured with serum-free media, whereas there was no change in @he other cancer cell lines. PANC-1 and MIA-PaCa-2 cells but not the other cell lines released NGF in the culture media. Exogenous NGF stimulated the growth of PANC-1 and MIA-PaCa-2 cells, inhibited the growth of T3M4 and CAPAN-1 cells in a dose- and time-dependent manner, and did not affect the growth of ASPC-1 cells. NGF led to the phosphorylation of TrkA, mitogen.activated protein kinase (MAPK), and p38 MAPK but not stress-activated protein kinase/c-Jun NH2-terminal kinase in PANC-1 and MIA-PaCa-2 cells. In contrast, in the other pancreatic cancer cell lines none of these kinases were phosphorylated by NGF. In conclusion, the effects of NGF on pancreatic cancer cell growth are dependent on the expression levels and the balance of its TrkA and p75 receptors. NGF-induced pancreatic cancer cell growth seems to be mediated through the phosphorylation of TrkA and subsequently via MAPK. These results point to a previously unknown autocrine/paracrine pathway in pancreatic cancer, suggesting that NGF-TrkA interactions are important factors influencing cell growth and spread in this malignancy.

Original languageEnglish (US)
Pages (from-to)105-112
Number of pages8
JournalClinical Cancer Research
Volume7
Issue number1
StatePublished - 2001
Externally publishedYes

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Nerve Growth Factor
Pancreatic Neoplasms
Growth
Cell Line
Protein Kinases
Neoplasms
trkA Receptor
Enzyme-Linked Immunosorbent Assay
Phosphorylation
Nerve Growth Factor Receptors
JNK Mitogen-Activated Protein Kinases
Serum-Free Culture Media
p38 Mitogen-Activated Protein Kinases
Heat-Shock Proteins
Mitogens
Reverse Transcription
Culture Media
Cultured Cells

ASJC Scopus subject areas

  • Cancer Research
  • Oncology

Cite this

Zhu, Z. W., Friess, H., Wang, L., Bogardus, T., Korc, M., Kleef, J., & Büchler, M. W. (2001). Nerve growth factor exerts differential effects on the growth of human pancreatic cancer cells. Clinical Cancer Research, 7(1), 105-112.

Nerve growth factor exerts differential effects on the growth of human pancreatic cancer cells. / Zhu, Z. W.; Friess, H.; Wang, L.; Bogardus, T.; Korc, Murray; Kleef, J.; Büchler, M. W.

In: Clinical Cancer Research, Vol. 7, No. 1, 2001, p. 105-112.

Research output: Contribution to journalArticle

Zhu, ZW, Friess, H, Wang, L, Bogardus, T, Korc, M, Kleef, J & Büchler, MW 2001, 'Nerve growth factor exerts differential effects on the growth of human pancreatic cancer cells', Clinical Cancer Research, vol. 7, no. 1, pp. 105-112.
Zhu ZW, Friess H, Wang L, Bogardus T, Korc M, Kleef J et al. Nerve growth factor exerts differential effects on the growth of human pancreatic cancer cells. Clinical Cancer Research. 2001;7(1):105-112.
Zhu, Z. W. ; Friess, H. ; Wang, L. ; Bogardus, T. ; Korc, Murray ; Kleef, J. ; Büchler, M. W. / Nerve growth factor exerts differential effects on the growth of human pancreatic cancer cells. In: Clinical Cancer Research. 2001 ; Vol. 7, No. 1. pp. 105-112.
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abstract = "Nerve growth factor (NGF) exerts both stimulatory and inhibitory effects on neuronal and certain nonneuronal tumors with the effect based on the type of tumor. We investigated NGF and its receptors (TrkA and p75) in pancreatic cancer cells (PANC-1, MIA-PaCa-2, CAPAN-1, ASPC-1, and T3M4) by reverse transcription-PCR, Western blot analysis, NGF ELISA, and growth assays. NGF mRNA was present at comparable levels in all five pancreatic cancer cell lines. TrkA expression was relatively high in PANC-1 and MIA-PaCa-2 cells and low in CAPAN-1, ASPC-1, and T3M4 cells, p75 expression was high in PANC-1, MIA-PaCa-2, and T3M4 cells, moderate in CAPAN-1, and low in ASPC-1 cells. By ELISA assay, the intracellular NGF content in all cell lines was ∼40 pg/106 cells. NGF content increased significantly in PANC-1 and MIA-PaCa-2 cells when these cells were cultured with serum-free media, whereas there was no change in @he other cancer cell lines. PANC-1 and MIA-PaCa-2 cells but not the other cell lines released NGF in the culture media. Exogenous NGF stimulated the growth of PANC-1 and MIA-PaCa-2 cells, inhibited the growth of T3M4 and CAPAN-1 cells in a dose- and time-dependent manner, and did not affect the growth of ASPC-1 cells. NGF led to the phosphorylation of TrkA, mitogen.activated protein kinase (MAPK), and p38 MAPK but not stress-activated protein kinase/c-Jun NH2-terminal kinase in PANC-1 and MIA-PaCa-2 cells. In contrast, in the other pancreatic cancer cell lines none of these kinases were phosphorylated by NGF. In conclusion, the effects of NGF on pancreatic cancer cell growth are dependent on the expression levels and the balance of its TrkA and p75 receptors. NGF-induced pancreatic cancer cell growth seems to be mediated through the phosphorylation of TrkA and subsequently via MAPK. These results point to a previously unknown autocrine/paracrine pathway in pancreatic cancer, suggesting that NGF-TrkA interactions are important factors influencing cell growth and spread in this malignancy.",
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AU - Friess, H.

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AU - Kleef, J.

AU - Büchler, M. W.

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N2 - Nerve growth factor (NGF) exerts both stimulatory and inhibitory effects on neuronal and certain nonneuronal tumors with the effect based on the type of tumor. We investigated NGF and its receptors (TrkA and p75) in pancreatic cancer cells (PANC-1, MIA-PaCa-2, CAPAN-1, ASPC-1, and T3M4) by reverse transcription-PCR, Western blot analysis, NGF ELISA, and growth assays. NGF mRNA was present at comparable levels in all five pancreatic cancer cell lines. TrkA expression was relatively high in PANC-1 and MIA-PaCa-2 cells and low in CAPAN-1, ASPC-1, and T3M4 cells, p75 expression was high in PANC-1, MIA-PaCa-2, and T3M4 cells, moderate in CAPAN-1, and low in ASPC-1 cells. By ELISA assay, the intracellular NGF content in all cell lines was ∼40 pg/106 cells. NGF content increased significantly in PANC-1 and MIA-PaCa-2 cells when these cells were cultured with serum-free media, whereas there was no change in @he other cancer cell lines. PANC-1 and MIA-PaCa-2 cells but not the other cell lines released NGF in the culture media. Exogenous NGF stimulated the growth of PANC-1 and MIA-PaCa-2 cells, inhibited the growth of T3M4 and CAPAN-1 cells in a dose- and time-dependent manner, and did not affect the growth of ASPC-1 cells. NGF led to the phosphorylation of TrkA, mitogen.activated protein kinase (MAPK), and p38 MAPK but not stress-activated protein kinase/c-Jun NH2-terminal kinase in PANC-1 and MIA-PaCa-2 cells. In contrast, in the other pancreatic cancer cell lines none of these kinases were phosphorylated by NGF. In conclusion, the effects of NGF on pancreatic cancer cell growth are dependent on the expression levels and the balance of its TrkA and p75 receptors. NGF-induced pancreatic cancer cell growth seems to be mediated through the phosphorylation of TrkA and subsequently via MAPK. These results point to a previously unknown autocrine/paracrine pathway in pancreatic cancer, suggesting that NGF-TrkA interactions are important factors influencing cell growth and spread in this malignancy.

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