Marina Kuhn scite author profile

Many pathogenic bacteria use injectisomes to deliver effector proteins into host cells through type III secretion. Injectisomes consist of a basal body embedded in the bacterial membranes and a needle. In Yersinia, translocation of effectors requires the YopB and YopD proteins, which form a pore in the target cell membrane, and the LcrV protein, which assists the assembly of the pore. Here we report that LcrV forms a distinct structure at the tip of the needle, the tip complex. This unique localization of LcrV may explain its crucial role in the translocation process and its efficacy as the main protective antigen against plague.

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Selective Accumulation of Raft-Associated Membrane Protein Lat in T Cell Receptor Signaling Assemblies

Harder¹,

Kuhn²

2000

141

130

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Activation of T cell antigen receptor (TCR) induces tyrosine phosphorylations that mediate the assembly of signaling protein complexes. Moreover, cholesterol-sphingolipid raft membrane domains have been implicated to play a role in TCR signal transduction. Here, we studied the assembly of TCR with signal transduction proteins and raft markers in plasma membrane subdomains of Jurkat T leukemic cells. We employed a novel method to immunoisolate plasma membrane subfragments that were highly concentrated in activated TCR–CD3 complexes and associated signaling proteins. We found that the raft transmembrane protein linker for activation of T cells (LAT), but not a palmitoylation-deficient non-raft LAT mutant, strongly accumulated in TCR-enriched immunoisolates in a tyrosine phosphorylation–dependent manner. In contrast, other raft-associated molecules, including protein tyrosine kinases Lck and Fyn, GM1, and cholesterol, were not highly concentrated in TCR-enriched plasma membrane immunoisolates. Many downstream signaling proteins coisolated with the TCR/LAT-enriched plasma membrane fragments, suggesting that LAT/TCR assemblies form a structural scaffold for TCR signal transduction proteins. Our results indicate that TCR signaling assemblies in plasma membrane subdomains, rather than generally concentrating raft-associated membrane proteins and lipids, form by a selective protein-mediated anchoring of the raft membrane protein LAT in vicinity of TCR.

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The discovery of SycO highlights a new function for type III secretion effector chaperones

Letzelter

Sorg

Mota

et al. 2006

EMBO J

102

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Bacterial injectisomes deliver effector proteins straight into the cytosol of eukaryotic cells (type III secretion, T3S). Many effectors are associated with a specific chaperone that remains inside the bacterium when the effector is delivered. The structure of such chaperones and the way they interact with their substrate is well characterized but their main function remains elusive. Here, we describe and characterize SycO, a new chaperone for the Yersinia effector kinase YopO. The chaperone-binding domain (CBD) within YopO coincides with the membrane localization domain (MLD) targeting YopO to the host cell membrane. The CBD/MLD causes intrabacterial YopO insolubility and the binding of SycO prevents this insolubility but not folding and activity of the kinase. Similarly, SycE masks the MLD of YopE and SycT covers an aggregation-prone domain of YopT, presumably corresponding to its MLD. Thus, SycO, SycE and most likely SycT mask, inside the bacterium, a domain needed for proper localization of their cognate effector in the host cell. We propose that covering an MLD might be an essential function of T3S effector chaperones.

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Escape from Immune Surveillance byCapnocytophaga canimorsus

et al. 2007

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Capnocytophaga canimorsus, a commensal bacterium from dogs' mouths, can cause septicemia or meningitis in humans through bites or scratches. Here, we describe and characterize the inflammatory response of human and mouse macrophages on C. canimorsus infection. Macrophages infected with 10 different strains failed to release tumor necrosis factor (TNF)- alpha and interleukin (IL)-1 alpha . Macrophages infected with live and heat-killed (HK) C. canimorsus 5 (Cc5), a strain isolated from a patient with fatal septicemia, did not release IL-6, IL-8, interferon- gamma , macrophage inflammatory protein-1 beta , and nitric oxide (NO). This absence of a proinflammatory response was characterized by the inability of Toll-like receptor (TLR) 4 to respond to Cc5. Moreover, live but not HK Cc5 blocked the release of TNF- alpha and NO induced by HK Yersinia enterocolitica. In addition, live Cc5 down-regulated the expression of TLR4 and dephosphorylated p38 mitogen-activated protein kinase. These results highlight passive and active mechanisms of immune evasion by C. canimorsus, which may explain its capacity to escape from the host immune system.

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Immunoisolation of TCR Signaling Complexes from Jurkat T Leukemic Cells

Harder¹,

Kuhn²

2001

Sci. STKE

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The formation of multimolecular assemblies of signaling molecules at the plasma membrane is key to triggering signaling cascades following activation of transmembrane receptors at the plasma membrane. We have developed a method to immunoisolate activated T cell receptors (TCRs) and associated signaling molecules in plasma membrane subdomains from Jurkat T leukemic cells. The immunoisolation procedure for the signaling complexes uses magnetic beads, which are coupled to TCR-activating antibodies. Following mechanical cellular disruption using nitrogen cavitation, conjugates of these beads with Jurkat cells are formed and isolated. TCR-signaling complexes within plasma membrane fragments associate with the antibody-coupled beads and are retrieved along with the beads using a magnet. We found that the immunoisolated plasma membrane fragments are highly enriched for activated TCRs and associated signaling proteins. This isolation procedure allows a detailed and precise biochemical analysis of the assembly of signaling proteins in plasma membrane subdomains.

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Marina Kuhn

The V-Antigen of Yersinia Forms a Distinct Structure at the Tip of Injectisome Needles

Selective Accumulation of Raft-Associated Membrane Protein Lat in T Cell Receptor Signaling Assemblies

The discovery of SycO highlights a new function for type III secretion effector chaperones

Escape from Immune Surveillance byCapnocytophaga canimorsus

Immunoisolation of TCR Signaling Complexes from Jurkat T Leukemic Cells

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