AIM:To investigate the silencing effects of pAdshRNA-pleiotrophin(PTN) on PTN in pancreatic cancer cells,and to observe the inhibition of pAd-shRNA-PTN on neurite outgrowth from dorsal root ganglion(DRG) neurons in vi...AIM:To investigate the silencing effects of pAdshRNA-pleiotrophin(PTN) on PTN in pancreatic cancer cells,and to observe the inhibition of pAd-shRNA-PTN on neurite outgrowth from dorsal root ganglion(DRG) neurons in vitro.METHODS:PAd-shRNA-PTN was used to infect pancreatic cancer BxPC-3 cells;assays were conducted for knockdown of the PTN gene on the 0th,1st,3rd,5th,7th and 9th d after infection using immunocytochemistry,real-time quantitative polymerase chain reaction(PCR),and Western blotting analysis.The morphologic changes of cultured DRG neurons were observed by mono-culture of DRG neurons and co-culture with BXPC-3 cells in vitro.RESULTS:The real-time quantitative PCR showed that the inhibition rates of PTN mRNA expression in the BxPC-3 cells were 20%,80%,50% and 25% on the 1st,3rd,5th and 7th d after infection.Immunocytochemistry and Western blotting analysis also revealed the same tendency.In contrast to the control,the DRG neurons co-cultured with the infected BxPC-3 cells shrunk;the number and length of neurites were significantly decreased.CONCLUSION:Efficient and specific knockdown of PTN in pancreatic cancer cells and the reduction in PTN expression resulted in the inhibition of neurite outgrowth from DRG neurons.展开更多
AIM:To analyze gene expression profiles in an experimental pancreatitis and provide functional reversal of hypersensitivity with candidate gene endothelin-1 antagonists.METHODS:Dibutyltin dichloride(DBTC) is a chemica...AIM:To analyze gene expression profiles in an experimental pancreatitis and provide functional reversal of hypersensitivity with candidate gene endothelin-1 antagonists.METHODS:Dibutyltin dichloride(DBTC) is a chemical used as a polyvinyl carbonate stabilizer/catalyzer,biocide in agriculture,antifouling agent in paint and fabric.DBTC induces an acute pancreatitis flare through generation of reactive oxygen species.Lewis-inbred rats received a single i.v.injection with either DBTC or vehicle.Spinal cord and dorsal root ganglia(DRG) were taken at the peak of inflammation and processed for transcriptional profiling with a cDNA microarray biased for rat brain-specific genes.In a second study,groups of animals with DBTC-induced pancreatitis were treated with endothelin(ET) receptor antagonists [ET-A(BQ123) and ET-B BQ788)].Spontaneous pain related mechanical and thermal hypersensitivity were measured.Immunohistochemical analysis was performed using anti-ET-A and ET-B antibodies on sections from pancreatic tissues and DRG of the T10-12 spinal segments.RESULTS:Animals developed acute pancreatic inflammation persisting 7-10 d as confirmed by pathological studies(edema in parenchyma,loss of pancreatic architecture and islets,infiltration of inflammatory cells,neutrophil and mononuclear cells,degeneration,vacuolization and necrosis of acinar cells) and the painrelated behaviors(cutaneous secondary mechanical and thermal hypersensitivity).Gene expression profile was different in the spinal cord from animals with pancreatitis compared to the vehicle control group.Over 260 up-regulated and 60 down-regulated unique genes could be classified into 8 functional gene families:circulatory/acute phase/immunomodulatory;extracellular matrix;structural;channel/receptor/transporter;signaling transduction;transcription/translation-related;antioxidants/chaperones/heat shock;pancreatic and other enzymes.ET-1 was among the 52 candidate genes upregulated greater than 2-fold in animals with pancreatic inflammation and visceral pain-related behavior.Treatments with the ET-A(BQ123) and ET-B(BQ-788) antagonists revealed significant protection against inflammatory pain related mechanical and thermal hypersensitivity behaviors in animals with pancreatitis(P < 0.05).Open field spontaneous behavioral activity(at baseline,day 6 and 30 min after drug treatments(BQ123,BQ788) showed overall stable activity levels indicating that the drugs produced no undesirable effects on normal exploratory behaviors,except for a trend toward reduction of the active time and increase in resting time at the highest dose(300 μmol/L).Immunocytochemical localization revealed that expression of ET-A and ET-B receptors increased in DRG from animals with pancreatitis.Endothelin receptor localization was combined in dual staining with neuronal marker NeuN,and glia marker,glial fibrillary acidic protein.ET-A was expressed in the cell bodies and occasional nuclei of DRG neurons in na ve animals.However,phenotypic expression of ET-A receptor was greatly increased in neurons of all sizes in animals with pancreatitis.Similarly,ET-B receptor was localized in neurons and in the satellite glia,as well as in the Schwann cell glial myelin sheaths surrounding the axons passing through the DRG.CONCLUSION:Endothelin-receptor antagonists protect against inflammatory pain responses without interfering with normal exploratory behaviors.Candidate genes can serve as future biomarkers for diagnosis and/or targeted gene therapy.展开更多
Objective Cisplatin exerts its cytotoxic effect through distinct DNA lesions,leading to peripheral neuropathy.The risk of sensory neuropathy is a common problem during cancer treatment with cisplatin,leading to somati...Objective Cisplatin exerts its cytotoxic effect through distinct DNA lesions,leading to peripheral neuropathy.The risk of sensory neuropathy is a common problem during cancer treatment with cisplatin,leading to somatic hyperalgesia.Yet,data focussing on cisplatin-induced impairment of the autonomic nervous system are limited.The present study was aimed to investigate the effect of recombinant human erythropoietin(rhEPO)on cisplatin-induced visceral hyperalgesia.Methods C57BL/6 mice were treated either with cisplatin(2 mg/kg,once per week)or with cisplatin(2 mg/kg,once per week)plus rhEPO (40μg/kg,3 times per week)for 8 weeks.Controls were treated with saline.To quantify the visceromotor response(VMR)at week 9,standardized electrodes were implanted into the external oblique musculature for electromyographic recordings.After that,animals were decapitated and dorsal root ganglia(DRG)was removed for transmission electron microscopy studies.Results Cisplatin-treated mice showed a significant increase of VMR compared to the controls[(7080±969)vs(2864±279);P0.001],while rhEPO dramatically counteracted this effect[(2962±336)vs(7080±969);P0.001)].Transmission electron microscopy revealed cisplatin-induced structural lesions of nuclear membrane in DRG cells,which could be ameliorated by rhEPO.Conclusion Erythropoietin can significantly ameliorate the cisplatin-induced visceral hyperplasia and DRG nuclear membrane structure damage in mice,indicating a neuroprotective role of erythropoietin.展开更多
基金Supported by Health Science and Technology Innovation Talents Program of Henan Province
文摘AIM:To investigate the silencing effects of pAdshRNA-pleiotrophin(PTN) on PTN in pancreatic cancer cells,and to observe the inhibition of pAd-shRNA-PTN on neurite outgrowth from dorsal root ganglion(DRG) neurons in vitro.METHODS:PAd-shRNA-PTN was used to infect pancreatic cancer BxPC-3 cells;assays were conducted for knockdown of the PTN gene on the 0th,1st,3rd,5th,7th and 9th d after infection using immunocytochemistry,real-time quantitative polymerase chain reaction(PCR),and Western blotting analysis.The morphologic changes of cultured DRG neurons were observed by mono-culture of DRG neurons and co-culture with BXPC-3 cells in vitro.RESULTS:The real-time quantitative PCR showed that the inhibition rates of PTN mRNA expression in the BxPC-3 cells were 20%,80%,50% and 25% on the 1st,3rd,5th and 7th d after infection.Immunocytochemistry and Western blotting analysis also revealed the same tendency.In contrast to the control,the DRG neurons co-cultured with the infected BxPC-3 cells shrunk;the number and length of neurites were significantly decreased.CONCLUSION:Efficient and specific knockdown of PTN in pancreatic cancer cells and the reduction in PTN expression resulted in the inhibition of neurite outgrowth from DRG neurons.
基金Supported by National Institutes of Health Grants,No. NS039041,to Westlund KN and DE19177,to Oz HS
文摘AIM:To analyze gene expression profiles in an experimental pancreatitis and provide functional reversal of hypersensitivity with candidate gene endothelin-1 antagonists.METHODS:Dibutyltin dichloride(DBTC) is a chemical used as a polyvinyl carbonate stabilizer/catalyzer,biocide in agriculture,antifouling agent in paint and fabric.DBTC induces an acute pancreatitis flare through generation of reactive oxygen species.Lewis-inbred rats received a single i.v.injection with either DBTC or vehicle.Spinal cord and dorsal root ganglia(DRG) were taken at the peak of inflammation and processed for transcriptional profiling with a cDNA microarray biased for rat brain-specific genes.In a second study,groups of animals with DBTC-induced pancreatitis were treated with endothelin(ET) receptor antagonists [ET-A(BQ123) and ET-B BQ788)].Spontaneous pain related mechanical and thermal hypersensitivity were measured.Immunohistochemical analysis was performed using anti-ET-A and ET-B antibodies on sections from pancreatic tissues and DRG of the T10-12 spinal segments.RESULTS:Animals developed acute pancreatic inflammation persisting 7-10 d as confirmed by pathological studies(edema in parenchyma,loss of pancreatic architecture and islets,infiltration of inflammatory cells,neutrophil and mononuclear cells,degeneration,vacuolization and necrosis of acinar cells) and the painrelated behaviors(cutaneous secondary mechanical and thermal hypersensitivity).Gene expression profile was different in the spinal cord from animals with pancreatitis compared to the vehicle control group.Over 260 up-regulated and 60 down-regulated unique genes could be classified into 8 functional gene families:circulatory/acute phase/immunomodulatory;extracellular matrix;structural;channel/receptor/transporter;signaling transduction;transcription/translation-related;antioxidants/chaperones/heat shock;pancreatic and other enzymes.ET-1 was among the 52 candidate genes upregulated greater than 2-fold in animals with pancreatic inflammation and visceral pain-related behavior.Treatments with the ET-A(BQ123) and ET-B(BQ-788) antagonists revealed significant protection against inflammatory pain related mechanical and thermal hypersensitivity behaviors in animals with pancreatitis(P < 0.05).Open field spontaneous behavioral activity(at baseline,day 6 and 30 min after drug treatments(BQ123,BQ788) showed overall stable activity levels indicating that the drugs produced no undesirable effects on normal exploratory behaviors,except for a trend toward reduction of the active time and increase in resting time at the highest dose(300 μmol/L).Immunocytochemical localization revealed that expression of ET-A and ET-B receptors increased in DRG from animals with pancreatitis.Endothelin receptor localization was combined in dual staining with neuronal marker NeuN,and glia marker,glial fibrillary acidic protein.ET-A was expressed in the cell bodies and occasional nuclei of DRG neurons in na ve animals.However,phenotypic expression of ET-A receptor was greatly increased in neurons of all sizes in animals with pancreatitis.Similarly,ET-B receptor was localized in neurons and in the satellite glia,as well as in the Schwann cell glial myelin sheaths surrounding the axons passing through the DRG.CONCLUSION:Endothelin-receptor antagonists protect against inflammatory pain responses without interfering with normal exploratory behaviors.Candidate genes can serve as future biomarkers for diagnosis and/or targeted gene therapy.
文摘Objective Cisplatin exerts its cytotoxic effect through distinct DNA lesions,leading to peripheral neuropathy.The risk of sensory neuropathy is a common problem during cancer treatment with cisplatin,leading to somatic hyperalgesia.Yet,data focussing on cisplatin-induced impairment of the autonomic nervous system are limited.The present study was aimed to investigate the effect of recombinant human erythropoietin(rhEPO)on cisplatin-induced visceral hyperalgesia.Methods C57BL/6 mice were treated either with cisplatin(2 mg/kg,once per week)or with cisplatin(2 mg/kg,once per week)plus rhEPO (40μg/kg,3 times per week)for 8 weeks.Controls were treated with saline.To quantify the visceromotor response(VMR)at week 9,standardized electrodes were implanted into the external oblique musculature for electromyographic recordings.After that,animals were decapitated and dorsal root ganglia(DRG)was removed for transmission electron microscopy studies.Results Cisplatin-treated mice showed a significant increase of VMR compared to the controls[(7080±969)vs(2864±279);P0.001],while rhEPO dramatically counteracted this effect[(2962±336)vs(7080±969);P0.001)].Transmission electron microscopy revealed cisplatin-induced structural lesions of nuclear membrane in DRG cells,which could be ameliorated by rhEPO.Conclusion Erythropoietin can significantly ameliorate the cisplatin-induced visceral hyperplasia and DRG nuclear membrane structure damage in mice,indicating a neuroprotective role of erythropoietin.
