Your search keyword '"Zlotkin D"' showing total 8 results

1. The breadth and molecular basis of Hcp-driven type six secretion system (T6SS) effector delivery

Author

Howard, SA, Furniss, RCD, Bonini, D, Amin, H, Paracuellos, P, Zlotkin, D, R. D. Costa, T, Levy, A, A. I. Mavridou, D, Filloux, A, Commission of the European Communities, and Medical Research Council (MRC)

Subjects

0605 Microbiology

Abstract

The type VI secretion system (T6SS) is a bacterial nanoscale weapon that delivers toxins into prey ranging from bacteria and fungi to animal hosts. The cytosolic contractile sheath of the system wraps around stacked hexameric rings of Hcp proteins, which form an inner tube. At the tip of this tube is a puncturing device comprising a trimeric VgrG topped by a monomeric PAAR protein. The number of toxins a single system delivers per firing event remains unknown, since effectors can be loaded on diverse sites of the T6SS apparatus, notably the inner tube and the puncturing device. Each VgrG or PAAR can bind one effector, and additional effector cargoes can be carried in the Hcp ring lumen. While many VgrG- and PAAR-bound toxins have been characterized, to date, very few Hcp-bound effectors are known. Here, we used 3 known Pseudomonas aeruginosa Hcp proteins (Hcp1 to -3), each of which associates with one of the three T6SSs in this organism (H1-T6SS, H2-T6SS, and H3-T6SS), to perform in vivo pulldown assays. We confirmed the known interactions of Hcp1 with Tse1 to -4, further copurified a Hcp1-Tse4 complex, and identified potential novel Hcp1-bound effectors. Moreover, we demonstrated that Hcp2 and Hcp3 can shuttle T6SS cargoes toxic to Escherichia coli. Finally, we used a Tse1-Bla chimera to probe the loading strategy for Hcp passengers and found that while large effectors can be loaded onto Hcp, the formed complex jams the system, abrogating T6SS function.

Published

2021

2. Index of Suspicion

Author

Zlotkin, D., primary, Hudgins, A., additional, Thompson, A., additional, Waasdorp, C. E, additional, Kerrigan, J. R., additional, Nagaraj, S. K., additional, and Schwartz, R. P., additional

Published

2007

3. Index of suspicion.

Author

Festekjian A, Pierson SB, Zlotkin D, Festekjian, Ara, Pierson, Stacy B, and Zlotkin, David

Published

2006

4. Psychosocial effects of short stature.

Author

Zlotkin D, Varma SK, Zlotkin, David, and Varma, Surendra K

Abstract

The treatment of children with short stature was revolutionized by the creation of recombinant growth hormone therapy. While it cannot be denied that therapy adds significant height to children who are growth hormone deficient, such treatment is both painful, requiring many injections for years, as well as extremely expensive, both for the children's parents as well as for medical health care for society. With the indications for growth hormone treatment expanding over the years to include children with short stature who are not growth hormone deficient, it is important to determine all potential benefits beyond the obvious physical effects in order to make efficient cost-benefit determinations on appropriate usage of growth hormone therapy. One aspect of possible benefits for these children with short stature may be psychological features, such as increased overall happiness and self-esteem that is gained with increased height. A review and analysis of literature was undertaken in order to determine what effect, if any, growth hormone therapy has on short children's psychosocial well-being. [ABSTRACT FROM AUTHOR]

Published

2006

5. Identification of type VI secretion system effector-immunity pairs using structural bioinformatics.

Author

Geller AM, Shalom M, Zlotkin D, Blum N, and Levy A

Subjects

Escherichia coli genetics, Escherichia coli metabolism, Escherichia coli immunology, Gram-Negative Bacteria immunology, Gram-Negative Bacteria genetics, Genome, Bacterial, Molecular Sequence Annotation, Computational Biology methods, Type VI Secretion Systems genetics, Type VI Secretion Systems metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Bacterial Proteins chemistry

Abstract

The type VI secretion system (T6SS) is an important mediator of microbe-microbe and microbe-host interactions. Gram-negative bacteria use the T6SS to inject T6SS effectors (T6Es), which are usually proteins with toxic activity, into neighboring cells. Antibacterial effectors have cognate immunity proteins that neutralize self-intoxication. Here, we applied novel structural bioinformatic tools to perform systematic discovery and functional annotation of T6Es and their cognate immunity proteins from a dataset of 17,920 T6SS-encoding bacterial genomes. Using structural clustering, we identified 517 putative T6E families, outperforming sequence-based clustering. We developed a logistic regression model to reliably quantify protein-protein interaction of new T6E-immunity pairs, yielding candidate immunity proteins for 231 out of the 517 T6E families. We used sensitive structure-based annotation which yielded functional annotations for 51% of the T6E families, again outperforming sequence-based annotation. Next, we validated four novel T6E-immunity pairs using basic experiments in E. coli. In particular, we showed that the Pfam domain DUF3289 is a homolog of Colicin M and that DUF943 acts as its cognate immunity protein. Furthermore, we discovered a novel T6E that is a structural homolog of SleB, a lytic transglycosylase, and identified a specific glutamate that acts as its putative catalytic residue. Overall, this study applies novel structural bioinformatic tools to T6E-immunity pair discovery, and provides an extensive database of annotated T6E-immunity pairs., (© 2024. The Author(s).)

Published

2024

6. The Breadth and Molecular Basis of Hcp-Driven Type VI Secretion System Effector Delivery.

Author

Howard SA, Furniss RCD, Bonini D, Amin H, Paracuellos P, Zlotkin D, Costa TRD, Levy A, Mavridou DAI, and Filloux A

Subjects

Biological Transport, Escherichia coli metabolism, Pseudomonas aeruginosa chemistry, Type VI Secretion Systems classification, Bacterial Proteins genetics, Bacterial Proteins metabolism, Pseudomonas aeruginosa genetics, Type VI Secretion Systems genetics, Type VI Secretion Systems metabolism

Abstract

The type VI secretion system (T6SS) is a bacterial nanoscale weapon that delivers toxins into prey ranging from bacteria and fungi to animal hosts. The cytosolic contractile sheath of the system wraps around stacked hexameric rings of Hcp proteins, which form an inner tube. At the tip of this tube is a puncturing device comprising a trimeric VgrG topped by a monomeric PAAR protein. The number of toxins a single system delivers per firing event remains unknown, since effectors can be loaded on diverse sites of the T6SS apparatus, notably the inner tube and the puncturing device. Each VgrG or PAAR can bind one effector, and additional effector cargoes can be carried in the Hcp ring lumen. While many VgrG- and PAAR-bound toxins have been characterized, to date, very few Hcp-bound effectors are known. Here, we used 3 known Pseudomonas aeruginosa Hcp proteins (Hcp1 to -3), each of which associates with one of the three T6SSs in this organism (H1-T6SS, H2-T6SS, and H3-T6SS), to perform in vivo pulldown assays. We confirmed the known interactions of Hcp1 with Tse1 to -4, further copurified a Hcp1-Tse4 complex, and identified potential novel Hcp1-bound effectors. Moreover, we demonstrated that Hcp2 and Hcp3 can shuttle T6SS cargoes toxic to Escherichia coli. Finally, we used a Tse1-Bla chimera to probe the loading strategy for Hcp passengers and found that while large effectors can be loaded onto Hcp, the formed complex jams the system, abrogating T6SS function. IMPORTANCE The type VI secretion system (T6SS) is an effective weapon used by bacteria to outgrow or kill competitors. It can be used by endogenous commensal microbiota to prevent invasion by pathogens or by pathogens to overcome resident flora and successfully colonize a host or a specific environmental niche. The T6SS is a key contributor to this continuous arms race between organisms as it delivers a multitude of toxins directed at essential processes, such as nucleic acid synthesis and replication, cell wall and membrane integrity, protein synthesis, or cofactor abundance. Many T6SS toxins with unknown function remain to be discovered, whose yet-uncharacterized targets could be exploited for antimicrobial drug design. The systematic search for these toxins is not facilitated by the presence of readily recognizable T6SS motifs, and unbiased screening approaches are thus required. Here, we successfully used a known shuttle for cargo T6SS effectors, Hcp, as bait to identify uncharacterized toxins.

Published

2021

7. The extracellular contractile injection system is enriched in environmental microbes and associates with numerous toxins.

Author

Geller AM, Pollin I, Zlotkin D, Danov A, Nachmias N, Andreopoulos WB, Shemesh K, and Levy A

Subjects

Animals, Archaea metabolism, Bacteria metabolism, Bacteriophages metabolism, Fungi, Nematoda, Protein Translocation Systems metabolism, Protein Transport physiology, Toxins, Biological genetics, Archaea genetics, Bacteria genetics, Contractile Proteins genetics, Protein Translocation Systems genetics, Toxins, Biological metabolism

Abstract

The extracellular Contractile Injection System (eCIS) is a toxin-delivery particle that evolved from a bacteriophage tail. Four eCISs have previously been shown to mediate interactions between bacteria and their invertebrate hosts. Here, we identify eCIS loci in 1,249 bacterial and archaeal genomes and reveal an enrichment of these loci in environmental microbes and their apparent absence from mammalian pathogens. We show that 13 eCIS-associated toxin genes from diverse microbes can inhibit the growth of bacteria and/or yeast. We identify immunity genes that protect bacteria from self-intoxication, further supporting an antibacterial role for some eCISs. We also identify previously undescribed eCIS core genes, including a conserved eCIS transcriptional regulator. Finally, we present our data through an extensive eCIS repository, termed eCIStem. Our findings support eCIS as a toxin-delivery system that is widespread among environmental prokaryotes and likely mediates antagonistic interactions with eukaryotes and other prokaryotes.

Published

2021

8. Pyomyositis of the iliacus muscle in an adolescent.

Author

Zlotkin D

Subjects

Child, Female, Hip, Humans, Myositis therapy, Staphylococcal Infections therapy, Myositis diagnosis, Myositis microbiology, Staphylococcal Infections diagnosis

Published

2005