BACKGROUND Patients with severe aplastic anemia(SAA)frequently present with inflammatory episodes,and during flared inflammatory episodes,hematopoietic function is further exacerbated.The gastrointestinal tract is the...BACKGROUND Patients with severe aplastic anemia(SAA)frequently present with inflammatory episodes,and during flared inflammatory episodes,hematopoietic function is further exacerbated.The gastrointestinal tract is the most common site for infectious and inflammatory diseases,and its structural and functional features confer on it the most potent capacity to affect hematopoietic and immune functions.Computed tomography(CT)is a readily accessible approach to provide highly useful information in detecting morphological changes and guiding further work-ups.AIM To explore CT imaging presentations of gut inflammatory damage in adult SAA patients during inflammatory episodes.METHODS We retrospectively evaluated the abdominal CT imaging presentations of 17hospitalized adult patients with SAA in search of the inflammatory niche when they presented with systemic inflammatory stress and exacerbated hematopoietic function.In this descriptive manuscript,the characteristic images that suggested the presence of gastrointestinal inflammatory damage and related imaging presentations of individual patients were enumerated,analyzed and described.RESULTS All eligible patients with SAA had CT imaging abnormalities that suggested the presence of an impaired intestinal barrier and increased epithelial permeability.The inflammatory damages were concurrently present in the small intestine,the ileocecal region and the large intestines.Some readily identified imaging signs,such as bowel wall thickening with mural stratification(“water holo sign”,“fat holo sign”,intramural gas and subserosal pneumatosis)and mesenteric fat proliferation(fat stranding and“creeping fat sign”),fibrotic bowel wall thickening,“balloon sign”,rugged colonic configuration,heterogeneity in the bowel wall texture,and adhered and clustered small bowel loop(including various patterns of“abdominal cocoon”),occurred at a high incidence,which suggested that the damaged gastrointestinal tract is a common inflammatory niche responsible for the systemic in展开更多
In vitro cultures of primary cortical neurons are widely used to investigate neuronal function.However,it has yet to be fully investigated whether there are significant differences in development and function between ...In vitro cultures of primary cortical neurons are widely used to investigate neuronal function.However,it has yet to be fully investigated whether there are significant differences in development and function between cultured rodent and primate cortical neurons,and whether these differences influence the utilization of cultured cortical neurons to model pathological conditions.Using in vitro culture techniques combined with immunofluorescence and electrophysiological methods,our study found that the development and maturation of primary cerebral cortical neurons from cynomolgus monkeys were slower than those from mice.We used a microelectrode array technique to compare the electrophysiological differences in cortical neurons,and found that primary cortical neurons from the mouse brain began to show electrical activity earlier than those from the cynomolgus monkey.Although cultured monkey cortical neurons developed slowly in vitro,they exhibited typical pathological features-revealed by immunofluorescent staining-when infected with adeno-associated viral vectors expressing mutant huntingtin(HTT),the Huntington’s disease protein.A quantitative analysis of the cultured monkey cortical neurons also confirmed that mutant HTT significantly reduced the length of neurites.Therefore,compared with the primary cortical neurons of mice,cultured monkey cortical neurons have longer developmental and survival times and greater sustained physiological activity,such as electrophysiological activity.Our findings also suggest that primary cynomolgus monkey neurons cultured in vitro can simulate a cell model of human neurodegenerative disease,and may be useful for investigating time-dependent neuronal death as well as treatment via neuronal regeneration.All mouse experiments and protocols were approved by the Animal Care and Use Committee of Jinan University of China(IACUC Approval No.20200512-04)on May 12,2020.All monkey experiments were approved by the IACUC protocol(IACUC Approval No.LDACU 20190820-01)on August 23,2019 for anim展开更多
基金Supported by the Specialized Scientific Research Fund Projects of the Medical Group of Qingdao University,No.YLJT20201002。
文摘BACKGROUND Patients with severe aplastic anemia(SAA)frequently present with inflammatory episodes,and during flared inflammatory episodes,hematopoietic function is further exacerbated.The gastrointestinal tract is the most common site for infectious and inflammatory diseases,and its structural and functional features confer on it the most potent capacity to affect hematopoietic and immune functions.Computed tomography(CT)is a readily accessible approach to provide highly useful information in detecting morphological changes and guiding further work-ups.AIM To explore CT imaging presentations of gut inflammatory damage in adult SAA patients during inflammatory episodes.METHODS We retrospectively evaluated the abdominal CT imaging presentations of 17hospitalized adult patients with SAA in search of the inflammatory niche when they presented with systemic inflammatory stress and exacerbated hematopoietic function.In this descriptive manuscript,the characteristic images that suggested the presence of gastrointestinal inflammatory damage and related imaging presentations of individual patients were enumerated,analyzed and described.RESULTS All eligible patients with SAA had CT imaging abnormalities that suggested the presence of an impaired intestinal barrier and increased epithelial permeability.The inflammatory damages were concurrently present in the small intestine,the ileocecal region and the large intestines.Some readily identified imaging signs,such as bowel wall thickening with mural stratification(“water holo sign”,“fat holo sign”,intramural gas and subserosal pneumatosis)and mesenteric fat proliferation(fat stranding and“creeping fat sign”),fibrotic bowel wall thickening,“balloon sign”,rugged colonic configuration,heterogeneity in the bowel wall texture,and adhered and clustered small bowel loop(including various patterns of“abdominal cocoon”),occurred at a high incidence,which suggested that the damaged gastrointestinal tract is a common inflammatory niche responsible for the systemic in
基金This work was supported by the National Natural Science Foundation of China,No.81922026(to SY)the National Key Research and Development Program of China Stem Cell and Translational Research,No.2017YFA0105104(to SY)+3 种基金Key Field Research and Development Program of Guangdong Province,No.2018B030337001(to XJL)Guangdong Key Laboratory of Non-human Primate Models of Brain Diseases,No.2020B121201006(to XJL)Guangzhou Key Research Program on Brain Science,No.202007030008(to SY)the Fundamental Research Funds for the Central Universities,No.21619104(to SY).
文摘In vitro cultures of primary cortical neurons are widely used to investigate neuronal function.However,it has yet to be fully investigated whether there are significant differences in development and function between cultured rodent and primate cortical neurons,and whether these differences influence the utilization of cultured cortical neurons to model pathological conditions.Using in vitro culture techniques combined with immunofluorescence and electrophysiological methods,our study found that the development and maturation of primary cerebral cortical neurons from cynomolgus monkeys were slower than those from mice.We used a microelectrode array technique to compare the electrophysiological differences in cortical neurons,and found that primary cortical neurons from the mouse brain began to show electrical activity earlier than those from the cynomolgus monkey.Although cultured monkey cortical neurons developed slowly in vitro,they exhibited typical pathological features-revealed by immunofluorescent staining-when infected with adeno-associated viral vectors expressing mutant huntingtin(HTT),the Huntington’s disease protein.A quantitative analysis of the cultured monkey cortical neurons also confirmed that mutant HTT significantly reduced the length of neurites.Therefore,compared with the primary cortical neurons of mice,cultured monkey cortical neurons have longer developmental and survival times and greater sustained physiological activity,such as electrophysiological activity.Our findings also suggest that primary cynomolgus monkey neurons cultured in vitro can simulate a cell model of human neurodegenerative disease,and may be useful for investigating time-dependent neuronal death as well as treatment via neuronal regeneration.All mouse experiments and protocols were approved by the Animal Care and Use Committee of Jinan University of China(IACUC Approval No.20200512-04)on May 12,2020.All monkey experiments were approved by the IACUC protocol(IACUC Approval No.LDACU 20190820-01)on August 23,2019 for anim
