The gastrointestinal tract is frequently challenged by pathogens/antigens contained in food and water and the intestinal epithelium must be capable of rapid regeneration in the event of tissue damage. Disruption of th...The gastrointestinal tract is frequently challenged by pathogens/antigens contained in food and water and the intestinal epithelium must be capable of rapid regeneration in the event of tissue damage. Disruption of the intestinal barrier leads to a number of immune-mediated diseases, including inflammatory bowel disease, food allergy, and celiac disease. The intestinal mucosa is composed of different types of epithelial cells in specific barrier functions. Epithelial cells control surfaceassociated bacterial populations without disrupting the intestinal microflora that is crucial for host health. They are also capable of modulating mucosal immune system, and are thus essential in maintaining homeostasis in the gut. Thus, the regulation of intestinal epithelial homeostasis is crucial for the maintenance of the structure of the mucosa and the defensive barrier functions. Recent studies have demonstrated that multiple molecular pathways are involved in the regulation of intestinal epithelial cell polarity. These include the Wnt, Notch, Hippo, transforming growth factor-β(TGF-β)/bone morphogenetic protein(BMP) and Hedgehog pathways, most of which were identified in lower organisms where they play important roles during embryogenesis. These pathways are also used in adult organisms to regulate multiple self-renewing organs. Understanding the interactions between these molecular mechanisms and intestinal barrier function will therefore provide important insight into the pathogenesis of intestinal-based immune-mediated diseases.展开更多
The intestinal mucosa is characterized by a high complexity in terms of structure and functions and allows for a controlled demarcation towards the gut lumen.On the one hand it is responsible for pulping and selective...The intestinal mucosa is characterized by a high complexity in terms of structure and functions and allows for a controlled demarcation towards the gut lumen.On the one hand it is responsible for pulping and selective absorption of alimentary substances ensuring the immunological tolerance,on the other hand it prevents the penetration of micro-organisms as well as bacterial outgrowth.The continuous regeneration of surface epithelia along the crypt-villus-axis in the small intestine is crucial to assuring these various functions.The core phenomena of intestinal epithelia regeneration comprise cell proliferation,migration,differentiation,and apoptosis.These partly contrarily oriented processes are molecularly balanced through numerous interacting signaling pathways like Wnt/β-catenin,Notch and Hedgehog,and regulated by various modifying factors.One of these modifiers is acyl-CoA synthetase 5(ACSL5).It plays a key role in de novo lipid synthesis,fatty acid degradation and membrane modifications,and regulates several intestinal processes,primarily through different variants of protein lipidation,e.g.,palmitoylation.ACSL5 was shown to interact with proapoptotic molecules,and besides seems to inhibit proliferation along the crypt-villus-axis.Because of its proapoptotic and antiproliferative characteristics it could be of significant relevance for intestinal homeostasis,cellular disorder and tumor development.展开更多
AIM:To hypothesize that beta-7 integrin affects cellularmigration of both,lymphocytes and enterocytes.METHODS:The nucleoside analog Brd U was ip injected in beta-7-deficient mice(C57BL/6-Itgbtmlcgn/J)of male gender an...AIM:To hypothesize that beta-7 integrin affects cellularmigration of both,lymphocytes and enterocytes.METHODS:The nucleoside analog Brd U was ip injected in beta-7-deficient mice(C57BL/6-Itgbtmlcgn/J)of male gender and age-matched male C57BL/J J mice(wild type)4,20,or 40 h before analysis.The total small intestine was isolated,dissected,and used for morphometrical studies.Brd U-positive epithelial cells were numbered in at least 15 hemi-crypts per duodenum,jejunum,and ileum of each animal.The outer most Brd U-positive cell(cellmax)was determined per hemi-crypt,numerically documented,and statistically analysed.RESULTS:Integrins containing the beta-7-chain were exclusively expressed on leukocytes.In the small intestinal mucosa of beta-7 integrin-deficient mice the number of intraepithelial lymphocytes was drastically decreased.Moreover,the Peyer’s patches of beta-7integrin-deficient mice appeared hypoplastic.In beta-7integrin-deficient mice the location of cellmax was found in a higher position than it was the case for the controls.The difference was already detected at 4 h after Brd U application,but significantly increased with time(40 h after Brd U injection)in all small intestinal segments investigated,i.e.,duodenum,jejunum,and ileum.Migration of small intestinal enterocytes was different between the experimental groups measured by cellmax locations.CONCLUSION:The E-cadherin beta-7 integrin pathway probably controls migration of enterocytes within the small intestinal surface lining epithelial layer.展开更多
Colorectal carcinomas(CRCs)are frequently found in industrialized countries and lead to a high incidence of malignancy-related mortality.Defined by histomorphological features,CRCs and their pre-invasive lesions are q...Colorectal carcinomas(CRCs)are frequently found in industrialized countries and lead to a high incidence of malignancy-related mortality.Defined by histomorphological features,CRCs and their pre-invasive lesions are quite heterogeneous.The underlying molecular mechanisms include genomic instability,genomic mutation of tumor suppressor genes or oncogenes,epigenetic changes,and the microRNA network.The molecular mechanisms are guided by repeated clonal selections.The genotype-to-phenotype relation is assumed to be the great challenge of cancer research and the development of effective targeted therapies.At present a strong genotype-to-phenotype relation is characterized only for a minority of CRCs.Consequently,the molecular characterization of CRCs is essential to interpret histological patterns and to identify prognostic groups as well as patients for targeted therapy.展开更多
AIM: To verify the hypothesis that caspase-8(Casp8), which regulates cellular apoptosis and necroptosis, is critically involved in enterocyte migration.METHODS: Casp8-silenced Caco2 cells were used in migration assays...AIM: To verify the hypothesis that caspase-8(Casp8), which regulates cellular apoptosis and necroptosis, is critically involved in enterocyte migration.METHODS: Casp8-silenced Caco2 cells were used in migration assays. In addition, enterocyte-specific Casp8 heterozygous(Casp8+/?int) or homozygous knockout mice(Casp8?int) were generated by crossing genetically modified mice carrying lox P recombination sites in intron 2 and 4 of the murine Casp8 gene with transgenic animals expressing a cre-transgene under control of the villin promoter in a pure C57/BL6 genetic background. The nucleoside analog Brd U was injected i.p. in male Casp8+/?int and Casp8?int animals 4 h, 20 h, or 40 h before performing morphometric studies. Locations of anti-Brd U-immunostained cells(cellmax) in at least 50 hemi-crypts of 6 histoanatomically distinct intestinal mucosal regions were numbered and extracted for statistical procedures. For the mice cohort(n = 28), the walking distance of enterocytes was evaluated from cellmax within crypt(n = 57), plateau(n = 19), and villus(n = 172) positions, resulting in a total of 6838 observations. Data analysis was performed by fitting a three-level mixed effects modelto the data.RESULTS: In cell culture experiments with Caco2 cells, Casp8 knockdown efficiency mediated by RNA interference on Casp8 transcripts was 80% controlled as determined by Western blotting. In the scratch assay, migration of Casp8-deleted Caco2 cells was significantly diminished when compared with controls(Casp8?scramble and Caco2). In Brd U-labeled Casp8?int mice, cellmax locations were found along the hemi-crypts in a lower position than it was for Casp8+/?int or control(cre-negative) animals. Statistical data analysis with a three-level mixed effects model revealed that in the six different intestinal locations(distinct segments of the small and large intestine), cell movement between the three mice groups differed widely. Especially in duodenal hemi-crypts, enterocyte movement was different between the groups. At 20 h, duodenal cellmax location was significantly lower in Casp8?int(25.67 ± 2.49) than in Casp8+/?int(35.67 ± 4.78; P < 0.05) or control littermates(44.33 ± 0.94; P < 0.01).CONCLUSION: C a s p 8- d e p e n d e n t m i g ra t i o n o f enterocytes is likely involved in intestinal physiology and inflammation-related pathophysiology.展开更多
Fatty acids are energy substrates and cell components which participate in regulating signal transduction,transcription factor activity and secretion of bioactive lipid mediators.The acyl-CoA synthetases(ACSs)family c...Fatty acids are energy substrates and cell components which participate in regulating signal transduction,transcription factor activity and secretion of bioactive lipid mediators.The acyl-CoA synthetases(ACSs)family containing 26 family members exhibits tissue-specific distribution,distinct fatty acid substrate preferences and diverse biological functions.Increasing evidence indicates that dysregulation of fatty acid metabolism in the liver-gut axis,designated as the bidirectional relationship between the gut,microbiome and liver,is closely associated with a range of human diseases including metabolic disorders,inflammatory disease and carcinoma in the gastrointestinal tract and liver.In this review,we depict the role of ACSs in fatty acid metabolism,possible molecular mechanisms through which they exert functions,and their involvement in hepatocellular and colorectal carcinoma,with particular attention paid to long-chain fatty acids and small-chain fatty acids.Additionally,the liver-gut communication and the liver and gut intersection with the microbiome as well as diseases related to microbiota imbalance in the liver-gut axis are addressed.Moreover,the development of potentially therapeutic small molecules,proteins and compounds targeting ACSs in cancer treatment is summarized.展开更多
In the modifier concept of intestinal carcinogenesis, lipids have been established as important variables and one focus is given to long-chain fatty acids. Increased consumption of long-chain fatty acids is in discuss...In the modifier concept of intestinal carcinogenesis, lipids have been established as important variables and one focus is given to long-chain fatty acids. Increased consumption of long-chain fatty acids is in discussion to modify the development of colorectal carcinoma in humans. Saturated long-chain fatty acids, in particular, are assumed to promote carcinogenesis, whereas poly-unsaturated forms are likely to act in the opposite way. At present, the molecular mechanisms behind these effects are not well understood. Recently, it has been demonstrated by lipidomics and associated molecular techniques, that activation and metabolic channeling of long-chain fatty acids are important mechanisms to modify colorectal carcinogenesis. In this Editorial, an overview about the present concept of long-chain fatty acids and its derivatives in colorectal carcinogenesis as well as technical algorithms in lipid analysis is given.展开更多
AIM:To investigate whether human acyl-CoA synthetase 5(ACSL5) is sensitive to the ACSL inhibitor triacsin C.METHODS:The ACSL isoforms ACSL1 and ACSL5 from rat as well as human ACSL5 were cloned and recombinantly expre...AIM:To investigate whether human acyl-CoA synthetase 5(ACSL5) is sensitive to the ACSL inhibitor triacsin C.METHODS:The ACSL isoforms ACSL1 and ACSL5 from rat as well as human ACSL5 were cloned and recombinantly expressed as 6xHis-tagged enzymes.Ni 2+-affinity purified recombinant enzymes were assayed at pH 7.5 or pH 9.5 in the presence or absence of triacsin C.In addition,ACSL5 transfected CaCo2 cells and intestinal human mucosa were monitored.ACSL5 expression in cellular systems was verified using Western blot and immunofluorescence.The ACSL assay mix included TrisHCl(pH 7.4),ATP,CoA,EDTA,DTT,MgCl 2,[9,103 H] palmitic acid,and triton X-100.The 200 μL reaction was initiated with the addition of solubilized,purified recombinant proteins or cellular lysates.Reactions were terminated after 10,30 or 60 min of incubation with Doles medium.RESULTS:Expression of soluble recombinant ACSL proteins was found after incubation with isopropyl betaD-1-thiogalactopyranoside and after ultracentrifugation these were further purified to near homogeneity with Ni 2+-affinity chromatography.Triacsin C selectively and strongly inhibited recombinant human ACSL5 protein at pH 7.5 and pH 9.5,as well as recombinant rat ACSL1(sensitive control),but not recombinant rat ACSL5(insensitive control).The IC50 for human ACSL5 was about 10 μmol/L.The inhibitory triacsin C effect was similar for different incubation times(10,30 and 60 min) and was not modified by the N-or C-terminal location of the 6xHis-tag.In order to evaluate ACSL5 sensitivity to triacsin C in a cellular environment,stable human ACSL5 CaCo2 transfectants and mechanically dissected normal human intestinal mucosa with high physiological expression of ACSL5 were analyzed.In both models,ACSL5 peak activity was found at pH 7.5 and pH 9.5,corresponding to the properties of recombinant human ACSL5 protein.In the presence of triacsin C(25 μmol/L),total ACSL activity was dramatically diminished in human ACSL5 transfectants as well as in ACSL5-rich human intestinal mucosa.CONCLUSION:The data strongly indicate that human ACSL5 is sensitive to triacsin C and does not compensate for other triacsin C-sensitive ACSL isoforms.展开更多
Crohn's disease (CD), a variant of chronic inflammatory bowel disease, frequently affects the terminal ileum and coecal region. The clinical symptoms are often subtle and depend on the inflammatory activity of dis...Crohn's disease (CD), a variant of chronic inflammatory bowel disease, frequently affects the terminal ileum and coecal region. The clinical symptoms are often subtle and depend on the inflammatory activity of disease. In women of child-bearing age, florid intestinal endometriosis can simulate CD. Moreover, current pathophysiological concepts include intestinal endometriosis as a putative founder lesion for consecutive CD establishment. The report summarizes clinical and histomorphological data of a 35-year-old woman with the rare coincidence of florid intestinal endometriosis and CD both affecting the terminal ileum. The patient was suffering over 10 years from strong abdominal disorders including constipation, diarrhea, weight loss, and diffuse abdominal pain. In magnetic resonance imaging-Sellink, strong inflammation and intestinal obstruction of the terminal ileum were found. The laparoscopy revealed further evidence for existence of an inflammatory disease like CD, but brownish spots on the peritoneum were found indicative for endometriosis. Surgical resection of the terminal ileum and the coecal segment was performed followed by histopathological investigations. In transmural sections of the terminal ileum, histomorphological features of florid endometriosis intermingled with florid CD was found. The diagnostic findings were substantiated with a panel of immunohistological stainings. In conclusion, the findings demonstrate that florid endometriosis persists in florid CD lesions and the putative link between intestinal endometriosis and CD is more complex than previously assumed.展开更多
Free fatty acids are essential dietary components and recognized as important molecules in the maintenance of cellular homeostasis.In the last decade,the molecular pathways for free fatty acid sensing in the gastroint...Free fatty acids are essential dietary components and recognized as important molecules in the maintenance of cellular homeostasis.In the last decade,the molecular pathways for free fatty acid sensing in the gastrointestinal tract have been further elucidated by molecular identification and functional characterization of fatty acid binding receptors.These sensing molecules belong to the family of G proteincoupled receptors.In the intestine,four important receptors have been described so far.They differ in molecular structure,ligand specificity,expression pattern,and functional properties.In this review,an overview of intestinal fatty acid binding receptors and their role in intestinal physiology and pathophysiology is given.展开更多
文摘The gastrointestinal tract is frequently challenged by pathogens/antigens contained in food and water and the intestinal epithelium must be capable of rapid regeneration in the event of tissue damage. Disruption of the intestinal barrier leads to a number of immune-mediated diseases, including inflammatory bowel disease, food allergy, and celiac disease. The intestinal mucosa is composed of different types of epithelial cells in specific barrier functions. Epithelial cells control surfaceassociated bacterial populations without disrupting the intestinal microflora that is crucial for host health. They are also capable of modulating mucosal immune system, and are thus essential in maintaining homeostasis in the gut. Thus, the regulation of intestinal epithelial homeostasis is crucial for the maintenance of the structure of the mucosa and the defensive barrier functions. Recent studies have demonstrated that multiple molecular pathways are involved in the regulation of intestinal epithelial cell polarity. These include the Wnt, Notch, Hippo, transforming growth factor-β(TGF-β)/bone morphogenetic protein(BMP) and Hedgehog pathways, most of which were identified in lower organisms where they play important roles during embryogenesis. These pathways are also used in adult organisms to regulate multiple self-renewing organs. Understanding the interactions between these molecular mechanisms and intestinal barrier function will therefore provide important insight into the pathogenesis of intestinal-based immune-mediated diseases.
文摘The intestinal mucosa is characterized by a high complexity in terms of structure and functions and allows for a controlled demarcation towards the gut lumen.On the one hand it is responsible for pulping and selective absorption of alimentary substances ensuring the immunological tolerance,on the other hand it prevents the penetration of micro-organisms as well as bacterial outgrowth.The continuous regeneration of surface epithelia along the crypt-villus-axis in the small intestine is crucial to assuring these various functions.The core phenomena of intestinal epithelia regeneration comprise cell proliferation,migration,differentiation,and apoptosis.These partly contrarily oriented processes are molecularly balanced through numerous interacting signaling pathways like Wnt/β-catenin,Notch and Hedgehog,and regulated by various modifying factors.One of these modifiers is acyl-CoA synthetase 5(ACSL5).It plays a key role in de novo lipid synthesis,fatty acid degradation and membrane modifications,and regulates several intestinal processes,primarily through different variants of protein lipidation,e.g.,palmitoylation.ACSL5 was shown to interact with proapoptotic molecules,and besides seems to inhibit proliferation along the crypt-villus-axis.Because of its proapoptotic and antiproliferative characteristics it could be of significant relevance for intestinal homeostasis,cellular disorder and tumor development.
基金Supported by Partially by Deutsche Forschungsgemeinschaft,DFG GA 785/5-1 and Deutsche Krebshilfe,GA 109313
文摘AIM:To hypothesize that beta-7 integrin affects cellularmigration of both,lymphocytes and enterocytes.METHODS:The nucleoside analog Brd U was ip injected in beta-7-deficient mice(C57BL/6-Itgbtmlcgn/J)of male gender and age-matched male C57BL/J J mice(wild type)4,20,or 40 h before analysis.The total small intestine was isolated,dissected,and used for morphometrical studies.Brd U-positive epithelial cells were numbered in at least 15 hemi-crypts per duodenum,jejunum,and ileum of each animal.The outer most Brd U-positive cell(cellmax)was determined per hemi-crypt,numerically documented,and statistically analysed.RESULTS:Integrins containing the beta-7-chain were exclusively expressed on leukocytes.In the small intestinal mucosa of beta-7 integrin-deficient mice the number of intraepithelial lymphocytes was drastically decreased.Moreover,the Peyer’s patches of beta-7integrin-deficient mice appeared hypoplastic.In beta-7integrin-deficient mice the location of cellmax was found in a higher position than it was the case for the controls.The difference was already detected at 4 h after Brd U application,but significantly increased with time(40 h after Brd U injection)in all small intestinal segments investigated,i.e.,duodenum,jejunum,and ileum.Migration of small intestinal enterocytes was different between the experimental groups measured by cellmax locations.CONCLUSION:The E-cadherin beta-7 integrin pathway probably controls migration of enterocytes within the small intestinal surface lining epithelial layer.
文摘Colorectal carcinomas(CRCs)are frequently found in industrialized countries and lead to a high incidence of malignancy-related mortality.Defined by histomorphological features,CRCs and their pre-invasive lesions are quite heterogeneous.The underlying molecular mechanisms include genomic instability,genomic mutation of tumor suppressor genes or oncogenes,epigenetic changes,and the microRNA network.The molecular mechanisms are guided by repeated clonal selections.The genotype-to-phenotype relation is assumed to be the great challenge of cancer research and the development of effective targeted therapies.At present a strong genotype-to-phenotype relation is characterized only for a minority of CRCs.Consequently,the molecular characterization of CRCs is essential to interpret histological patterns and to identify prognostic groups as well as patients for targeted therapy.
基金Supported by Deutsche Forschungsgemeinschaft,No.DFG GA 785/5-1(partially)Deutsche Krebshilfe,No.GA 109313(partially)
文摘AIM: To verify the hypothesis that caspase-8(Casp8), which regulates cellular apoptosis and necroptosis, is critically involved in enterocyte migration.METHODS: Casp8-silenced Caco2 cells were used in migration assays. In addition, enterocyte-specific Casp8 heterozygous(Casp8+/?int) or homozygous knockout mice(Casp8?int) were generated by crossing genetically modified mice carrying lox P recombination sites in intron 2 and 4 of the murine Casp8 gene with transgenic animals expressing a cre-transgene under control of the villin promoter in a pure C57/BL6 genetic background. The nucleoside analog Brd U was injected i.p. in male Casp8+/?int and Casp8?int animals 4 h, 20 h, or 40 h before performing morphometric studies. Locations of anti-Brd U-immunostained cells(cellmax) in at least 50 hemi-crypts of 6 histoanatomically distinct intestinal mucosal regions were numbered and extracted for statistical procedures. For the mice cohort(n = 28), the walking distance of enterocytes was evaluated from cellmax within crypt(n = 57), plateau(n = 19), and villus(n = 172) positions, resulting in a total of 6838 observations. Data analysis was performed by fitting a three-level mixed effects modelto the data.RESULTS: In cell culture experiments with Caco2 cells, Casp8 knockdown efficiency mediated by RNA interference on Casp8 transcripts was 80% controlled as determined by Western blotting. In the scratch assay, migration of Casp8-deleted Caco2 cells was significantly diminished when compared with controls(Casp8?scramble and Caco2). In Brd U-labeled Casp8?int mice, cellmax locations were found along the hemi-crypts in a lower position than it was for Casp8+/?int or control(cre-negative) animals. Statistical data analysis with a three-level mixed effects model revealed that in the six different intestinal locations(distinct segments of the small and large intestine), cell movement between the three mice groups differed widely. Especially in duodenal hemi-crypts, enterocyte movement was different between the groups. At 20 h, duodenal cellmax location was significantly lower in Casp8?int(25.67 ± 2.49) than in Casp8+/?int(35.67 ± 4.78; P < 0.05) or control littermates(44.33 ± 0.94; P < 0.01).CONCLUSION: C a s p 8- d e p e n d e n t m i g ra t i o n o f enterocytes is likely involved in intestinal physiology and inflammation-related pathophysiology.
基金Supported by the Interdisziplinäres Zentrum für Klinische Forschung(IZKF-MSP-06)of University Hospital Jena.
文摘Fatty acids are energy substrates and cell components which participate in regulating signal transduction,transcription factor activity and secretion of bioactive lipid mediators.The acyl-CoA synthetases(ACSs)family containing 26 family members exhibits tissue-specific distribution,distinct fatty acid substrate preferences and diverse biological functions.Increasing evidence indicates that dysregulation of fatty acid metabolism in the liver-gut axis,designated as the bidirectional relationship between the gut,microbiome and liver,is closely associated with a range of human diseases including metabolic disorders,inflammatory disease and carcinoma in the gastrointestinal tract and liver.In this review,we depict the role of ACSs in fatty acid metabolism,possible molecular mechanisms through which they exert functions,and their involvement in hepatocellular and colorectal carcinoma,with particular attention paid to long-chain fatty acids and small-chain fatty acids.Additionally,the liver-gut communication and the liver and gut intersection with the microbiome as well as diseases related to microbiota imbalance in the liver-gut axis are addressed.Moreover,the development of potentially therapeutic small molecules,proteins and compounds targeting ACSs in cancer treatment is summarized.
文摘In the modifier concept of intestinal carcinogenesis, lipids have been established as important variables and one focus is given to long-chain fatty acids. Increased consumption of long-chain fatty acids is in discussion to modify the development of colorectal carcinoma in humans. Saturated long-chain fatty acids, in particular, are assumed to promote carcinogenesis, whereas poly-unsaturated forms are likely to act in the opposite way. At present, the molecular mechanisms behind these effects are not well understood. Recently, it has been demonstrated by lipidomics and associated molecular techniques, that activation and metabolic channeling of long-chain fatty acids are important mechanisms to modify colorectal carcinogenesis. In this Editorial, an overview about the present concept of long-chain fatty acids and its derivatives in colorectal carcinogenesis as well as technical algorithms in lipid analysis is given.
基金Supported by Deutsche Forschungsgemeinschaft, No. GA785/6-1Deutsche Krebshilfe, No. 109313the Rotationsprogramm of the Medical Faculty RWTH Aachen University (to Kaemmerer E)
文摘AIM:To investigate whether human acyl-CoA synthetase 5(ACSL5) is sensitive to the ACSL inhibitor triacsin C.METHODS:The ACSL isoforms ACSL1 and ACSL5 from rat as well as human ACSL5 were cloned and recombinantly expressed as 6xHis-tagged enzymes.Ni 2+-affinity purified recombinant enzymes were assayed at pH 7.5 or pH 9.5 in the presence or absence of triacsin C.In addition,ACSL5 transfected CaCo2 cells and intestinal human mucosa were monitored.ACSL5 expression in cellular systems was verified using Western blot and immunofluorescence.The ACSL assay mix included TrisHCl(pH 7.4),ATP,CoA,EDTA,DTT,MgCl 2,[9,103 H] palmitic acid,and triton X-100.The 200 μL reaction was initiated with the addition of solubilized,purified recombinant proteins or cellular lysates.Reactions were terminated after 10,30 or 60 min of incubation with Doles medium.RESULTS:Expression of soluble recombinant ACSL proteins was found after incubation with isopropyl betaD-1-thiogalactopyranoside and after ultracentrifugation these were further purified to near homogeneity with Ni 2+-affinity chromatography.Triacsin C selectively and strongly inhibited recombinant human ACSL5 protein at pH 7.5 and pH 9.5,as well as recombinant rat ACSL1(sensitive control),but not recombinant rat ACSL5(insensitive control).The IC50 for human ACSL5 was about 10 μmol/L.The inhibitory triacsin C effect was similar for different incubation times(10,30 and 60 min) and was not modified by the N-or C-terminal location of the 6xHis-tag.In order to evaluate ACSL5 sensitivity to triacsin C in a cellular environment,stable human ACSL5 CaCo2 transfectants and mechanically dissected normal human intestinal mucosa with high physiological expression of ACSL5 were analyzed.In both models,ACSL5 peak activity was found at pH 7.5 and pH 9.5,corresponding to the properties of recombinant human ACSL5 protein.In the presence of triacsin C(25 μmol/L),total ACSL activity was dramatically diminished in human ACSL5 transfectants as well as in ACSL5-rich human intestinal mucosa.CONCLUSION:The data strongly indicate that human ACSL5 is sensitive to triacsin C and does not compensate for other triacsin C-sensitive ACSL isoforms.
基金Supported by The Rotationsprogramm of the Medical Faculty RWTH Aachen to Kaemmerer E
文摘Crohn's disease (CD), a variant of chronic inflammatory bowel disease, frequently affects the terminal ileum and coecal region. The clinical symptoms are often subtle and depend on the inflammatory activity of disease. In women of child-bearing age, florid intestinal endometriosis can simulate CD. Moreover, current pathophysiological concepts include intestinal endometriosis as a putative founder lesion for consecutive CD establishment. The report summarizes clinical and histomorphological data of a 35-year-old woman with the rare coincidence of florid intestinal endometriosis and CD both affecting the terminal ileum. The patient was suffering over 10 years from strong abdominal disorders including constipation, diarrhea, weight loss, and diffuse abdominal pain. In magnetic resonance imaging-Sellink, strong inflammation and intestinal obstruction of the terminal ileum were found. The laparoscopy revealed further evidence for existence of an inflammatory disease like CD, but brownish spots on the peritoneum were found indicative for endometriosis. Surgical resection of the terminal ileum and the coecal segment was performed followed by histopathological investigations. In transmural sections of the terminal ileum, histomorphological features of florid endometriosis intermingled with florid CD was found. The diagnostic findings were substantiated with a panel of immunohistological stainings. In conclusion, the findings demonstrate that florid endometriosis persists in florid CD lesions and the putative link between intestinal endometriosis and CD is more complex than previously assumed.
基金Supported by Deutsche Forschungs gemeinschaft (DFG GA 785/5-1) and Deutsche Krebshilfe (DKH 109313)
文摘Free fatty acids are essential dietary components and recognized as important molecules in the maintenance of cellular homeostasis.In the last decade,the molecular pathways for free fatty acid sensing in the gastrointestinal tract have been further elucidated by molecular identification and functional characterization of fatty acid binding receptors.These sensing molecules belong to the family of G proteincoupled receptors.In the intestine,four important receptors have been described so far.They differ in molecular structure,ligand specificity,expression pattern,and functional properties.In this review,an overview of intestinal fatty acid binding receptors and their role in intestinal physiology and pathophysiology is given.
