The International Journal of Developmental Biology
Receptor Protein-Tyrosine Phosphatases (RPTPs) belong to the superfamily of protein-tyrosine phos... more Receptor Protein-Tyrosine Phosphatases (RPTPs) belong to the superfamily of protein-tyrosine phosphatases and have the intrinsic ability to transduce signals across the cell membrane. We are beginning to understand the role of RPTPs in development of invertebrates, due to elegant genetic studies. In contrast, relatively little is known about the role of RPTPs in vertebrate development. Signalling by RPTPs has predominantly been studied in mammalian cell systems, which has led to important insights into potential ligands, into regulation of RPTP activity and into potential RPTP substrates. Here, we will introduce the RPTPs, and discuss the function of the LAR-subfamily of RPTPs. In addition, we focus on the function and signalling of the haematopoietic RPTP, CD45. Finally, we will discuss the structure and function of RPTPalpha, the RPTP that is the subject of our studies.
Over the past decade the zebrafish (Danio rerio) has become an attractive new vertebrate model or... more Over the past decade the zebrafish (Danio rerio) has become an attractive new vertebrate model organism for studying mycobacterial pathogenesis. The combination of medium-throughput screening and real-time in vivo visualization has allowed new ways to dissect host pathogenic interaction in a vertebrate host. Furthermore, genetic screens on the host and bacterial sides have elucidated new mechanisms involved in the initiation of granuloma formation and the importance of a balanced immune response for control of mycobacterial pathogens. This article will highlight the unique features of the zebrafish-Mycobacterium marinum infection model and its added value for tuberculosis research.
The recruitment of leukocytes to infectious foci depends strongly on the local release of chemoat... more The recruitment of leukocytes to infectious foci depends strongly on the local release of chemoattractant mediators. The human CXC chemokine receptor 3 (CXCR3) is an important node in the chemokine signaling network and is expressed by multiple leukocyte lineages, including T cells and macrophages. The ligands of this receptor originate from an ancestral CXCL11 gene in early vertebrates. Here, we used the optically accessible zebrafish embryo model to explore the function of the CXCR3-CXCL11 axis in macrophage recruitment and show that disruption of this axis increases the resistance to mycobacterial infection. In a mutant of the zebrafish ortholog of CXCR3 (cxcr3.2), macrophage chemotaxis to bacterial infections was attenuated, although migration to infection-independent stimuli was unaffected. Additionally, attenuation of macrophage recruitment to infection could be mimicked by treatment with NBI74330, a high-affinity antagonist of CXCR3. We identified two infection-inducible CXCL...
The interaction of environmental bacteria with unicellular eukaryotes is generally considered as ... more The interaction of environmental bacteria with unicellular eukaryotes is generally considered as a major driving force for the evolution of intracellular pathogens, allowing them to survive and replicate in phagocytic cells of vertebrate hosts. To test this hypothesis on a genome wide level, we determined for the intracellular pathogen Mycobacterium marinum whether it uses conserved strategies to exploit host cells from both protozoan and vertebrate origin. Using transposon-directed insertion-site sequencing (TraDIS), we determined differences in genetic requirements for survival and replication in phagocytic cells of organisms from different kingdoms. In line with the general hypothesis, we identified a number of general virulence mechanisms, including the type VII protein secretion system ESX-1, biosynthesis of polyketide lipids and utilization of sterols. However, we could also show that M. marinum contains an even larger set of host-specific virulence determinants, including proteins involved in the modification of surface glycolipids and, surprisingly, the auxiliary proteins of the ESX-1 system. Several of these factors were in fact counterproductive in other hosts. Therefore, M. marinum contains different sets of virulence factors that are tailored for specific hosts. Our data implies that although amoeba could function as a training ground for intracellular pathogens, they do not fully prepare pathogens for crossing species barriers.
Mycobacteria, such as the major human pathogen Mycobacterium tuberculosis, have a highly unusual ... more Mycobacteria, such as the major human pathogen Mycobacterium tuberculosis, have a highly unusual and characteristic diderm cell envelope that protects them against harmful conditions. Protein secretion across this hydrophobic barrier requires specialized secretion systems. Recently, a type VII secretion (T7S) pathway has been identified that fulfills this function. Pathogenic mycobacteria have up to five different T7S systems, some of which play a crucial role in virulence. The interactions between secreted substrates and host molecules are only starting to become clear and will help in furthering our understanding of the persistence of these enigmatic pathogens. In this review, we discuss current knowledge on the role of T7S systems in mycobacterial virulence.
The cell-envelope of Mycobacterium tuberculosis plays a key role in bacterial virulence and antib... more The cell-envelope of Mycobacterium tuberculosis plays a key role in bacterial virulence and antibiotic resistance. Little is known about the molecular mechanisms of regulation of cell-envelope formation. Here, we elucidate functional and structural properties of RNase AS, which modulates M. tuberculosis cell-envelope properties and strongly impacts bacterial virulence in vivo. The structure of RNase AS reveals a resemblance to RNase T from Escherichia coli, an RNase of the DEDD family involved in RNA maturation. We show that RNase AS acts as a 3'-5'-exoribonuclease that specifically hydrolyzes adenylate-containing RNA sequences. Also, crystal structures of complexes with AMP and UMP reveal the structural basis for the observed enzyme specificity. Notably, RNase AS shows a mechanism of substrate recruitment, based on the recognition of the hydrogen bond donor NH2 group of adenine. Our work opens a field for the design of drugs able to reduce bacterial virulence in vivo.
Mycobacterium marinum causes tuberculosis in fish and can cause skin infections in humans who swi... more Mycobacterium marinum causes tuberculosis in fish and can cause skin infections in humans who swim in contaminated water or who have direct contact with infected fish. We report the case study of an 18-month-old girl with M. marinum abscesses, who acquired the infection through indirect contact with a contaminated bucket. Appropriate cleaning of aquarium equipment is very important, especially with young children in the household.
The International Journal of Developmental Biology
Receptor Protein-Tyrosine Phosphatases (RPTPs) belong to the superfamily of protein-tyrosine phos... more Receptor Protein-Tyrosine Phosphatases (RPTPs) belong to the superfamily of protein-tyrosine phosphatases and have the intrinsic ability to transduce signals across the cell membrane. We are beginning to understand the role of RPTPs in development of invertebrates, due to elegant genetic studies. In contrast, relatively little is known about the role of RPTPs in vertebrate development. Signalling by RPTPs has predominantly been studied in mammalian cell systems, which has led to important insights into potential ligands, into regulation of RPTP activity and into potential RPTP substrates. Here, we will introduce the RPTPs, and discuss the function of the LAR-subfamily of RPTPs. In addition, we focus on the function and signalling of the haematopoietic RPTP, CD45. Finally, we will discuss the structure and function of RPTPalpha, the RPTP that is the subject of our studies.
Over the past decade the zebrafish (Danio rerio) has become an attractive new vertebrate model or... more Over the past decade the zebrafish (Danio rerio) has become an attractive new vertebrate model organism for studying mycobacterial pathogenesis. The combination of medium-throughput screening and real-time in vivo visualization has allowed new ways to dissect host pathogenic interaction in a vertebrate host. Furthermore, genetic screens on the host and bacterial sides have elucidated new mechanisms involved in the initiation of granuloma formation and the importance of a balanced immune response for control of mycobacterial pathogens. This article will highlight the unique features of the zebrafish-Mycobacterium marinum infection model and its added value for tuberculosis research.
The recruitment of leukocytes to infectious foci depends strongly on the local release of chemoat... more The recruitment of leukocytes to infectious foci depends strongly on the local release of chemoattractant mediators. The human CXC chemokine receptor 3 (CXCR3) is an important node in the chemokine signaling network and is expressed by multiple leukocyte lineages, including T cells and macrophages. The ligands of this receptor originate from an ancestral CXCL11 gene in early vertebrates. Here, we used the optically accessible zebrafish embryo model to explore the function of the CXCR3-CXCL11 axis in macrophage recruitment and show that disruption of this axis increases the resistance to mycobacterial infection. In a mutant of the zebrafish ortholog of CXCR3 (cxcr3.2), macrophage chemotaxis to bacterial infections was attenuated, although migration to infection-independent stimuli was unaffected. Additionally, attenuation of macrophage recruitment to infection could be mimicked by treatment with NBI74330, a high-affinity antagonist of CXCR3. We identified two infection-inducible CXCL...
The interaction of environmental bacteria with unicellular eukaryotes is generally considered as ... more The interaction of environmental bacteria with unicellular eukaryotes is generally considered as a major driving force for the evolution of intracellular pathogens, allowing them to survive and replicate in phagocytic cells of vertebrate hosts. To test this hypothesis on a genome wide level, we determined for the intracellular pathogen Mycobacterium marinum whether it uses conserved strategies to exploit host cells from both protozoan and vertebrate origin. Using transposon-directed insertion-site sequencing (TraDIS), we determined differences in genetic requirements for survival and replication in phagocytic cells of organisms from different kingdoms. In line with the general hypothesis, we identified a number of general virulence mechanisms, including the type VII protein secretion system ESX-1, biosynthesis of polyketide lipids and utilization of sterols. However, we could also show that M. marinum contains an even larger set of host-specific virulence determinants, including proteins involved in the modification of surface glycolipids and, surprisingly, the auxiliary proteins of the ESX-1 system. Several of these factors were in fact counterproductive in other hosts. Therefore, M. marinum contains different sets of virulence factors that are tailored for specific hosts. Our data implies that although amoeba could function as a training ground for intracellular pathogens, they do not fully prepare pathogens for crossing species barriers.
Mycobacteria, such as the major human pathogen Mycobacterium tuberculosis, have a highly unusual ... more Mycobacteria, such as the major human pathogen Mycobacterium tuberculosis, have a highly unusual and characteristic diderm cell envelope that protects them against harmful conditions. Protein secretion across this hydrophobic barrier requires specialized secretion systems. Recently, a type VII secretion (T7S) pathway has been identified that fulfills this function. Pathogenic mycobacteria have up to five different T7S systems, some of which play a crucial role in virulence. The interactions between secreted substrates and host molecules are only starting to become clear and will help in furthering our understanding of the persistence of these enigmatic pathogens. In this review, we discuss current knowledge on the role of T7S systems in mycobacterial virulence.
The cell-envelope of Mycobacterium tuberculosis plays a key role in bacterial virulence and antib... more The cell-envelope of Mycobacterium tuberculosis plays a key role in bacterial virulence and antibiotic resistance. Little is known about the molecular mechanisms of regulation of cell-envelope formation. Here, we elucidate functional and structural properties of RNase AS, which modulates M. tuberculosis cell-envelope properties and strongly impacts bacterial virulence in vivo. The structure of RNase AS reveals a resemblance to RNase T from Escherichia coli, an RNase of the DEDD family involved in RNA maturation. We show that RNase AS acts as a 3'-5'-exoribonuclease that specifically hydrolyzes adenylate-containing RNA sequences. Also, crystal structures of complexes with AMP and UMP reveal the structural basis for the observed enzyme specificity. Notably, RNase AS shows a mechanism of substrate recruitment, based on the recognition of the hydrogen bond donor NH2 group of adenine. Our work opens a field for the design of drugs able to reduce bacterial virulence in vivo.
Mycobacterium marinum causes tuberculosis in fish and can cause skin infections in humans who swi... more Mycobacterium marinum causes tuberculosis in fish and can cause skin infections in humans who swim in contaminated water or who have direct contact with infected fish. We report the case study of an 18-month-old girl with M. marinum abscesses, who acquired the infection through indirect contact with a contaminated bucket. Appropriate cleaning of aquarium equipment is very important, especially with young children in the household.
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Papers by Astrid Van Der Sar