Mesothelin,C-ERC/mesothelin is a 40-kD a cell surface glycoprotein that is normally present on normal mesothelial cells lining the pleura,peritoneum,and pericardium.Moreover,mesothelin has been shown to be overexpress...Mesothelin,C-ERC/mesothelin is a 40-kD a cell surface glycoprotein that is normally present on normal mesothelial cells lining the pleura,peritoneum,and pericardium.Moreover,mesothelin has been shown to be overexpressed in several human cancers,including virtually all mesothelioma and pancreatic cancer approximately 70% of ovarian cancer and extra bile duc cancer,and 50% of lung adenocarcinomas and gastric cancer.The full-length human mesothelin gene encodes the primary product,a 71-k Da precursor protein.The71-kD a mesothelin precursor is cleaved into two products40-k Da C-terminal fragment that remains membranebound via glycosylphosphatidylinositol anchor,and a31-kD a N-terminal fragment,megakaryocyte potentiating factor,which is secreted into the blood.The biologica functions of mesothelin remain largely unknown However,results of recent studies have suggested tha the mesothelin may play a role of cell proliferation and migration.In pancreatic cancer,mesothelin expression was immunohistochemically observed in all cases,bu absent in normal pancreas and in chronic pancreatitis Furthermore,the expression of mesothelin was correlated with an poorer patient outcome in severa human cancers.The limited mesothelin expression in normal tissues and high expression in many cancers makes it an attractive candidate for cancer therapy.The present review discusses the expression and function o mesothelin in cancer cells and the utility of mesothelin as a target of cancer therapy.展开更多
Upon growth factor stimulation, the scaffold protein, Gabl, is tyrosine phosphorylated and subsequently the adaptor protein, Crk, transmits signals from Gabl. We have previously shown that Crk overexpression, which is...Upon growth factor stimulation, the scaffold protein, Gabl, is tyrosine phosphorylated and subsequently the adaptor protein, Crk, transmits signals from Gabl. We have previously shown that Crk overexpression, which is detectable in various human cancers, induces tyrosine phosphorylation of Gabl without extracellular stimuli. In the present study, the underlying mechanisms were further investigated. Mutational analyses of CrkII demonstrated that the SH2 domain, but not the SH3(N) or the regulatory Y221 residue of CrkII, is critical for the induction of Gabl- Y307 phosphorylation. SH2 mutation of CrkII also decreased the interaction with Gabl. In GST pull-down assay, Crk-SH2 bound to wild-type Gahl, whereas Crk-SH3(N) interacted with the Gabl mutant, which lacks the clus- tered tyrosine region (residues 242-410). Tyrosine phosphorylation of Gabl was induced by all Crk family proteins, but not other SH2-containing signalling adaptors. Src-family kinase inhibitor, PP2, abrogates Crk-induced tyrosine phosphorylations of Gabl. Y307 phosphorylation was undetectable in fibroblasts lacking Src, Yes, and Fyn, even upon overexpression of Crk, whereas cells lacking only Yes and Fyn still contained Gabl with phosphorylated Y307. Furthermore, Crk induced the phosphorylation of Src-Y416; accordingly the interaction between Crk and Csk was increased. The Gabl-Y307F mutant failed to localize near the plasma membrane even upon HGF stimulation and decreased cell migration. Moreover, Gabl-Y307F disturbed the localization of Crk, FAK, and paxillin, which are the typical components of focal adhesions. Taken together, these results indicate that Crk facilitates tyrosine phosphory- lation of Gabl-Y307 through Src, contributing to the organization of focal adhesions and enhanced cell migration, thereby possibly promoting human cancer development.展开更多
Pancreatic carcinoma occasionally associated with prominent mucin production and this type of tumor designated as PCM (pancreatic carcinoma with prominent mucin production) was diagnosed depends on subjective estimati...Pancreatic carcinoma occasionally associated with prominent mucin production and this type of tumor designated as PCM (pancreatic carcinoma with prominent mucin production) was diagnosed depends on subjective estimation of the amount of mucous area, and there has been no report on a quantitative evaluation of the amount of mucinous area in the tumor. To examine the feature of PCM, we analyzed 9 cases of PCM among 243 cases of pancreas carcinoma and evaluated the amount of mucin by imaging analysis. Morphologically, 5 cases were classified as intradactal papillary mucinous neoplasms (IPMN)-derived PCM and 4 cases were as ductal adenocarcinoma (DA)-derived PCM. Mucous composition was found to be more than 50% in all IPMN-derived PCM cases, and that was 40% - 50% in DA-derived PCM cases with one exception. IPMN-derived PCM cases showed expansive growth with pancreatic duct dilatation filled with mucin, while DA-derived PCM cases possessed mucin infiltration into interstitial tissue. Immunohisto-chemically, three of 4 DA-derived PCM cases were MUC1(–)/MUC2(+), and the results of expressions for p16 and Dpc4 suggesting that DA-derived PCM was similar to IPMN-derived PCM rather than ordinary DA. Survival rate of DA-derived PCM cases was lower than that of IPMN-derived PCM cases. We advocate that DA-derived PCM may constitute a borderline group between IPMN and ordinary DA.展开更多
OBJECTIVE Pancreatic ductal adenocarcinoma(PDAC),a lethal cancer in need of new,effective therapies,has a unique tumor microenvironment characterized by a dense fibrotic stroma(desmoplasia)that is generated by pancrea...OBJECTIVE Pancreatic ductal adenocarcinoma(PDAC),a lethal cancer in need of new,effective therapies,has a unique tumor microenvironment characterized by a dense fibrotic stroma(desmoplasia)that is generated by pancreatic cancer-associated fibroblasts(PCAFs)derived from pancreatic stellate cells(PSCs)and pancreatic fibroblasts(PFs).METHEDS and RESULTS Hypothesizing that G protein-coupled receptors(GPCRs)may regulate PCAFs,we used an unbiased GPCRomic array approach to compare GPCR expression in PCAFs,PFs and PSCs and identified 82 GPCRs commonly expressed by PCAFs derived from primary tumors of five PDAC patients.We discovered that PCAFs have increased expression of numerous GPCRs,in particular a GPCR with much higher expression in PCAFs compared to both PFs and PSCs.Immunohistochemistry revealed increased expression of this GPCR in PDAC tumors.Co-culture of PSCs with PDAC cells or incubation with TNFαinduced its expression.Activation of the GPCR in PCAF sincreased expression of interleukin-6(IL-6)via a cA MP/PKA/CREB signaling pathway.GPCR knockdown with siR NA diminished IL-6 production and secretionby PCAFs and ability of PCAF conditioned media to enhance proliferation of PDAC cells.CONCLUSION We conclude that PDAC cells induce expression by PCAFs of a novel GPCR,resulting in increased IL-6 production by PCAFs and promotion of PDAC cell proliferation.This PCAF-expressed GPCR thus contributes to PDAC cell-PCAF interaction and as such,may be a novel therapeutic target for PDAC tumors.展开更多
Dear editor:Intraductalcarcinomaoftheprostate(IDC-P)ischaracterized by expansive growth of cancer cells in normal prostatic ducts with basal cell layer and associated with high grade invasive prostate cancer(PCa).Howe...Dear editor:Intraductalcarcinomaoftheprostate(IDC-P)ischaracterized by expansive growth of cancer cells in normal prostatic ducts with basal cell layer and associated with high grade invasive prostate cancer(PCa).However,the molecular profile or clinical character of IDC-P in progressive castration-resistant PCa(CRPC)was not fully characterized yet.展开更多
Dear Editor,Spinal and bulbar muscular atrophy(SBMA)or Kennedy’s disease is a rare X-linked,recessive,lower motor neuron disease caused by a CAG repeat expansion within the first exon of the androgen receptor(AR)gene...Dear Editor,Spinal and bulbar muscular atrophy(SBMA)or Kennedy’s disease is a rare X-linked,recessive,lower motor neuron disease caused by a CAG repeat expansion within the first exon of the androgen receptor(AR)gene.Instability of the CAG-triplet repeat impacts AR function;therefore,men with SBMA are thought to be at a very low risk of prostate cancer.We previously reported a case of high-risk prostate cancer with SBMA(repeat length 46).展开更多
文摘Mesothelin,C-ERC/mesothelin is a 40-kD a cell surface glycoprotein that is normally present on normal mesothelial cells lining the pleura,peritoneum,and pericardium.Moreover,mesothelin has been shown to be overexpressed in several human cancers,including virtually all mesothelioma and pancreatic cancer approximately 70% of ovarian cancer and extra bile duc cancer,and 50% of lung adenocarcinomas and gastric cancer.The full-length human mesothelin gene encodes the primary product,a 71-k Da precursor protein.The71-kD a mesothelin precursor is cleaved into two products40-k Da C-terminal fragment that remains membranebound via glycosylphosphatidylinositol anchor,and a31-kD a N-terminal fragment,megakaryocyte potentiating factor,which is secreted into the blood.The biologica functions of mesothelin remain largely unknown However,results of recent studies have suggested tha the mesothelin may play a role of cell proliferation and migration.In pancreatic cancer,mesothelin expression was immunohistochemically observed in all cases,bu absent in normal pancreas and in chronic pancreatitis Furthermore,the expression of mesothelin was correlated with an poorer patient outcome in severa human cancers.The limited mesothelin expression in normal tissues and high expression in many cancers makes it an attractive candidate for cancer therapy.The present review discusses the expression and function o mesothelin in cancer cells and the utility of mesothelin as a target of cancer therapy.
基金Acknowledgments We thank M Hamaguchi (Nagoya Univ., Japan) and T Iwahara (Osaka Bioscience Institute, Japan) forJak null MEFs, and N Gotoh (Tokyo Univ., Japan), H Higashi (Hokkaido Univ., Japan), N Mochizuki (National Cardiovascular Cent. Res. Inst., Japan), H Hanafusa (Prof. emeritus, The Rockefeller Univ., USA and Direc- tor em., OBI, Japan), SK Hanks (Vanderbilt Univ., USA), and M Matsuda (Kyoto Univ., Japan) for plasmids. We also thank K Sasai (Hokkaido Univ., Japan) and Y Ohba (Hokkaido Univ., Japan) for valuable discussion. This work was supported in part by grants-in- aid from the Ministry of Education, Science, Culture, and Sports, and the Ministry of Health, Labor, and Welfare, Japan, as well as Suhara Memorial Foundation (Sapporo, Japan), and the Mochida Medical Science Foundation (Tokyo, Japan). The work of SF and TK is supported by grants from Cancer Research UK and the Brit- ish Cancer Charity "Heads Up". We dedicate this work to our great mentor Hidesaburo Hana- fusa, professor emeritus of the Rockefeller University, who passed away on March 15, 2009 at the age of 79. He devoted his life to science and in particular to creating the oncogene research field, to teaching and to providing profound affection to his students and postdocs. All of the alumni of Saburo's laboratory pride them- selves in having been his apprentices and we would like to hereby express our deeply felt gratitude to Saburo.
文摘Upon growth factor stimulation, the scaffold protein, Gabl, is tyrosine phosphorylated and subsequently the adaptor protein, Crk, transmits signals from Gabl. We have previously shown that Crk overexpression, which is detectable in various human cancers, induces tyrosine phosphorylation of Gabl without extracellular stimuli. In the present study, the underlying mechanisms were further investigated. Mutational analyses of CrkII demonstrated that the SH2 domain, but not the SH3(N) or the regulatory Y221 residue of CrkII, is critical for the induction of Gabl- Y307 phosphorylation. SH2 mutation of CrkII also decreased the interaction with Gabl. In GST pull-down assay, Crk-SH2 bound to wild-type Gahl, whereas Crk-SH3(N) interacted with the Gabl mutant, which lacks the clus- tered tyrosine region (residues 242-410). Tyrosine phosphorylation of Gabl was induced by all Crk family proteins, but not other SH2-containing signalling adaptors. Src-family kinase inhibitor, PP2, abrogates Crk-induced tyrosine phosphorylations of Gabl. Y307 phosphorylation was undetectable in fibroblasts lacking Src, Yes, and Fyn, even upon overexpression of Crk, whereas cells lacking only Yes and Fyn still contained Gabl with phosphorylated Y307. Furthermore, Crk induced the phosphorylation of Src-Y416; accordingly the interaction between Crk and Csk was increased. The Gabl-Y307F mutant failed to localize near the plasma membrane even upon HGF stimulation and decreased cell migration. Moreover, Gabl-Y307F disturbed the localization of Crk, FAK, and paxillin, which are the typical components of focal adhesions. Taken together, these results indicate that Crk facilitates tyrosine phosphory- lation of Gabl-Y307 through Src, contributing to the organization of focal adhesions and enhanced cell migration, thereby possibly promoting human cancer development.
文摘Pancreatic carcinoma occasionally associated with prominent mucin production and this type of tumor designated as PCM (pancreatic carcinoma with prominent mucin production) was diagnosed depends on subjective estimation of the amount of mucous area, and there has been no report on a quantitative evaluation of the amount of mucinous area in the tumor. To examine the feature of PCM, we analyzed 9 cases of PCM among 243 cases of pancreas carcinoma and evaluated the amount of mucin by imaging analysis. Morphologically, 5 cases were classified as intradactal papillary mucinous neoplasms (IPMN)-derived PCM and 4 cases were as ductal adenocarcinoma (DA)-derived PCM. Mucous composition was found to be more than 50% in all IPMN-derived PCM cases, and that was 40% - 50% in DA-derived PCM cases with one exception. IPMN-derived PCM cases showed expansive growth with pancreatic duct dilatation filled with mucin, while DA-derived PCM cases possessed mucin infiltration into interstitial tissue. Immunohisto-chemically, three of 4 DA-derived PCM cases were MUC1(–)/MUC2(+), and the results of expressions for p16 and Dpc4 suggesting that DA-derived PCM was similar to IPMN-derived PCM rather than ordinary DA. Survival rate of DA-derived PCM cases was lower than that of IPMN-derived PCM cases. We advocate that DA-derived PCM may constitute a borderline group between IPMN and ordinary DA.
文摘OBJECTIVE Pancreatic ductal adenocarcinoma(PDAC),a lethal cancer in need of new,effective therapies,has a unique tumor microenvironment characterized by a dense fibrotic stroma(desmoplasia)that is generated by pancreatic cancer-associated fibroblasts(PCAFs)derived from pancreatic stellate cells(PSCs)and pancreatic fibroblasts(PFs).METHEDS and RESULTS Hypothesizing that G protein-coupled receptors(GPCRs)may regulate PCAFs,we used an unbiased GPCRomic array approach to compare GPCR expression in PCAFs,PFs and PSCs and identified 82 GPCRs commonly expressed by PCAFs derived from primary tumors of five PDAC patients.We discovered that PCAFs have increased expression of numerous GPCRs,in particular a GPCR with much higher expression in PCAFs compared to both PFs and PSCs.Immunohistochemistry revealed increased expression of this GPCR in PDAC tumors.Co-culture of PSCs with PDAC cells or incubation with TNFαinduced its expression.Activation of the GPCR in PCAF sincreased expression of interleukin-6(IL-6)via a cA MP/PKA/CREB signaling pathway.GPCR knockdown with siR NA diminished IL-6 production and secretionby PCAFs and ability of PCAF conditioned media to enhance proliferation of PDAC cells.CONCLUSION We conclude that PDAC cells induce expression by PCAFs of a novel GPCR,resulting in increased IL-6 production by PCAFs and promotion of PDAC cell proliferation.This PCAF-expressed GPCR thus contributes to PDAC cell-PCAF interaction and as such,may be a novel therapeutic target for PDAC tumors.
基金This study was supported in part by Grants-in-Aid for Sci-entific Research(#17K16813 to Hongo H and#17K11158 E.20H03817 to Kosaka T)from the Ministry of Education,Culture,Sports,Science,and Technology of JapanThe study was supported in part by research grant to Kosaka T from the Takeda Science Foundation,Japan.
文摘Dear editor:Intraductalcarcinomaoftheprostate(IDC-P)ischaracterized by expansive growth of cancer cells in normal prostatic ducts with basal cell layer and associated with high grade invasive prostate cancer(PCa).However,the molecular profile or clinical character of IDC-P in progressive castration-resistant PCa(CRPC)was not fully characterized yet.
基金Yoko Suzuki provided technical assistance.This study was supported in part by Grants-in-Aid for Scientific Research(#17K16813 to H Hongo and#17K11158 and#20H03817 to TK)from the Ministry of Education,Culture,Sports,Science,and Technology of JapanThe study was supported in part by research Grant to TK from the Takeda Science Foundation,Japan。
文摘Dear Editor,Spinal and bulbar muscular atrophy(SBMA)or Kennedy’s disease is a rare X-linked,recessive,lower motor neuron disease caused by a CAG repeat expansion within the first exon of the androgen receptor(AR)gene.Instability of the CAG-triplet repeat impacts AR function;therefore,men with SBMA are thought to be at a very low risk of prostate cancer.We previously reported a case of high-risk prostate cancer with SBMA(repeat length 46).
