In this article,authors review the current knowledge of Bartonella infection in small mammals including rodents,insectivores,bats and exotic small mammal pets and their vectors in Asia.Species of Bartonella are Gram-n...In this article,authors review the current knowledge of Bartonella infection in small mammals including rodents,insectivores,bats and exotic small mammal pets and their vectors in Asia.Species of Bartonella are Gram-negative intracellular bacteria that infect erythrocytes of various mammalian and non-mammalian animals and mainly transmitted by blood sucking arthropod vectors.The genus Bartonella includes several species of important human diseases with severe clinical signs.Several new Bartonella species were isolated from rodents and other small mammals,and from human patients in Asia.Bartonella species are identified using standard polymerase chain reaction amplification and a sequencing targeting two housekeeping genes(glt.A and rpoB) and the internal transcribed spacer fragment.Authors also discuss the implications in term of potential emerging zoonotic diseases.展开更多
The origin of macrophages has been considered since several decades to be a continuum from bone marrow (BM) to tissue via monocytes as precursors. The development of new tools such as genetic lineage tracing,parabio...The origin of macrophages has been considered since several decades to be a continuum from bone marrow (BM) to tissue via monocytes as precursors. The development of new tools such as genetic lineage tracing,parabiosis and BM chimeras changed the paradigm of macrophage origin. In steady state, most resident macro-phages are of embryonic origin, whereas a monocyte origin remains prominent in pathological conditions. The findings of a proliferation of mature macrophages will oblige us to reappraise the relationship between proliferation and differentiation in macrophages. This review is based on the recent explosion of high impact articles on macrophage biology. It summarizes new data on the origin of macrophages and their self-renewal potential in steady states. While monocytes are required for intestinal macrophage development, the microglia is independent of monocyte influx and skin macrophages provide an excellent model of the balance between monocyte input and self-renewal. In addition, macrophage proliferation requires intrinsic and extrinsic factors including growth factors and cytokines. It also analyzes the impact of this new paradigm in human diseases such as athrosclerosis, cancer, infe-ctious diseases and neurodegenerative diseases. In atherosclerosis, the fnding of macrophage proliferation within the lesions will change our understanding of disease pathophysiology, this new paradigm may have therapeutical impact in the future.展开更多
Monocytes are effector immune cells but a precise anal-ysis of their role in immune response has been preclud-ed by their heterogeneity. Indeed, human monocytesare composed of at least three different subsets withdiff...Monocytes are effector immune cells but a precise anal-ysis of their role in immune response has been preclud-ed by their heterogeneity. Indeed, human monocytesare composed of at least three different subsets withdifferent phenotypic characteristics and functional prop-erties, the so-called classical, intermediate and non-classical monocytes. A review of the literature showsthat these monocyte subsets are differently affectedduring viral, bacterial, parasitic and fungal infections.The expansion of the CD16+ compartment (intermedi-ate and non-classical monocytes) is typically observedin the majority of infectious diseases and the increasedproportion of CD16+ monocytes is likely related totheir activation through their direct interaction with thepathogen or the infammatory context. In contrast, thenumber of non-classical and intermediate monocytesis decreased in Q fever endocarditis, suggesting thatcomplex mechanisms govern the equilibrium among monocyte subsets. The measurement of monocyte sub-sets would be useful in better understanding of the role of monocyte activation in the pathophysiology of infec-tious diseases.展开更多
Propionibacterium species are mostly environmental bacteria, some being commensal of mammals including humans, and sometimes pathogenic. These bacteria are poorly identified using routine laboratory methods. Recently,...Propionibacterium species are mostly environmental bacteria, some being commensal of mammals including humans, and sometimes pathogenic. These bacteria are poorly identified using routine laboratory methods. Recently, Matrix Assisted Laser Desorption Ionization Time-of-Flight Mass Spectrometry (MALDI-TOF-MS) has emerged as a rapid and efficient method to identify bacterial species. We evaluated the use of MALDI-TOF-MS for identification of all validated Propionibacterium species. Only four of the 15 tested reference strains (26.7%) were correctly identified at the species level, and P. acnes, the most common human pathogenic species was not identified. When applying MALDI-TOF-MS to 48 P. acnes strains, only 18.7% were correctly identified, suggesting an intraspecific variability of proteic profiles among Propionibacterium strains. However, by enriching the Bruker database with spectra from five of these strains and re-testing the other 43 strains against this new database, 93.0% were correctly identified. Our study demonstrates that MALDI-TOF-MS may be used for the identification of Propionibacterium isolates but requires a database enrichment in spectra from additional isolates.展开更多
基金Supported by the French ANR CERoPath project(number ANR 07 BDIV 012)the French ANR BiodivHealthSEA project(number ANR 11 CPEL.002)
文摘In this article,authors review the current knowledge of Bartonella infection in small mammals including rodents,insectivores,bats and exotic small mammal pets and their vectors in Asia.Species of Bartonella are Gram-negative intracellular bacteria that infect erythrocytes of various mammalian and non-mammalian animals and mainly transmitted by blood sucking arthropod vectors.The genus Bartonella includes several species of important human diseases with severe clinical signs.Several new Bartonella species were isolated from rodents and other small mammals,and from human patients in Asia.Bartonella species are identified using standard polymerase chain reaction amplification and a sequencing targeting two housekeeping genes(glt.A and rpoB) and the internal transcribed spacer fragment.Authors also discuss the implications in term of potential emerging zoonotic diseases.
文摘The origin of macrophages has been considered since several decades to be a continuum from bone marrow (BM) to tissue via monocytes as precursors. The development of new tools such as genetic lineage tracing,parabiosis and BM chimeras changed the paradigm of macrophage origin. In steady state, most resident macro-phages are of embryonic origin, whereas a monocyte origin remains prominent in pathological conditions. The findings of a proliferation of mature macrophages will oblige us to reappraise the relationship between proliferation and differentiation in macrophages. This review is based on the recent explosion of high impact articles on macrophage biology. It summarizes new data on the origin of macrophages and their self-renewal potential in steady states. While monocytes are required for intestinal macrophage development, the microglia is independent of monocyte influx and skin macrophages provide an excellent model of the balance between monocyte input and self-renewal. In addition, macrophage proliferation requires intrinsic and extrinsic factors including growth factors and cytokines. It also analyzes the impact of this new paradigm in human diseases such as athrosclerosis, cancer, infe-ctious diseases and neurodegenerative diseases. In atherosclerosis, the fnding of macrophage proliferation within the lesions will change our understanding of disease pathophysiology, this new paradigm may have therapeutical impact in the future.
文摘Monocytes are effector immune cells but a precise anal-ysis of their role in immune response has been preclud-ed by their heterogeneity. Indeed, human monocytesare composed of at least three different subsets withdifferent phenotypic characteristics and functional prop-erties, the so-called classical, intermediate and non-classical monocytes. A review of the literature showsthat these monocyte subsets are differently affectedduring viral, bacterial, parasitic and fungal infections.The expansion of the CD16+ compartment (intermedi-ate and non-classical monocytes) is typically observedin the majority of infectious diseases and the increasedproportion of CD16+ monocytes is likely related totheir activation through their direct interaction with thepathogen or the infammatory context. In contrast, thenumber of non-classical and intermediate monocytesis decreased in Q fever endocarditis, suggesting thatcomplex mechanisms govern the equilibrium among monocyte subsets. The measurement of monocyte sub-sets would be useful in better understanding of the role of monocyte activation in the pathophysiology of infec-tious diseases.
文摘Propionibacterium species are mostly environmental bacteria, some being commensal of mammals including humans, and sometimes pathogenic. These bacteria are poorly identified using routine laboratory methods. Recently, Matrix Assisted Laser Desorption Ionization Time-of-Flight Mass Spectrometry (MALDI-TOF-MS) has emerged as a rapid and efficient method to identify bacterial species. We evaluated the use of MALDI-TOF-MS for identification of all validated Propionibacterium species. Only four of the 15 tested reference strains (26.7%) were correctly identified at the species level, and P. acnes, the most common human pathogenic species was not identified. When applying MALDI-TOF-MS to 48 P. acnes strains, only 18.7% were correctly identified, suggesting an intraspecific variability of proteic profiles among Propionibacterium strains. However, by enriching the Bruker database with spectra from five of these strains and re-testing the other 43 strains against this new database, 93.0% were correctly identified. Our study demonstrates that MALDI-TOF-MS may be used for the identification of Propionibacterium isolates but requires a database enrichment in spectra from additional isolates.
