Katja Farhat scite author profile

TLR are primary triggers of the innate immune system by recognizing various microorganisms through conserved pathogen-associated molecular patterns. TLR2 is the receptor for a functional recognition of bacterial lipopeptides (LP) and is up-regulated during various disorders such as chronic obstructive pulmonary disease and sepsis. This receptor is unique in its ability to form heteromers with TLR1 or TLR6 to mediate intracellular signaling. According to the fatty acid pattern as well as the assembling of the polypeptide tail, LP can signal through TLR2 in a TLR1- or TLR6-dependent manner. There are also di- and triacylated LP, which stimulate TLR1-deficient cells and TLR6-deficient cells. In this study, we investigated whether heterodimerization evolutionarily developed to broaden the ligand spectrum or to induce different immune responses. We analyzed the signal transduction pathways activated through the different TLR2 dimers using the three LP, palmitic acid (Pam)octanoic acid (Oct)(2)C-(VPGVG)(4)VPGKG, fibroblast-stimulating LP-1, and Pam(2)C-SK(4). Dominant-negative forms of signaling molecules, immunoblotting of MAPK, as well as microarray analysis indicate that all dimers use the same signaling cascade, leading to an identical pattern of gene activation. We conclude that heterodimerization of TLR2 with TLR1 or TLR6 evolutionarily developed to expand the ligand spectrum to enable the innate immune system to recognize the numerous, different structures of LP present in various pathogens. Thus, although mycoplasma and Gram-positive and Gram-negative bacteria may activate different TLR2 dimers, the development of different signal pathways in response to different LP does not seem to be of vital significance for the innate defense system.

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Frizzled1 is a marker of inflammatory macrophages, and its ligand Wnt3a is involved in reprogrammingMycobacterium tuberculosis‐infected macrophages

Neumann

et al. 2010

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Wnt/Frizzled signaling, essential for embryonic development, has also recently been implicated in the modulation of inflammatory processes. In the current study, we observed a reciprocal regulation of the Toll-like receptor (TLR)/nuclear factor-κB (NF-κB) and the Wnt/β-catenin pathway after aerosol infection of mice with Mycobacterium tuberculosis: whereas proinflammatory mediators were substantially increased, β-catenin signaling was significantly reduced. A systematic screen of Fzd homologs in infected mice identified Fzd1 mRNA to be significantly up-regulated during the course of infection. In vitro infection of murine macrophages led to a strong induction of Fzd1 that was dependent on TLRs, the myeloid differentiation response gene 88 (MyD88), and a functional NF-κB pathway. Flow cytometry demonstrated an elevated Fzd1 expression on macrophages in response to M. tuberculosis that was synergistically enhanced in the presence of IFN-γ. Addition of the Fzd1 ligand Wnt3a induced Wnt/β-catenin signaling in murine macrophages that was inhibited in the presence of a soluble Fzd1/Fc fusion protein. Furthermore, Wnt3a reduced TNF release, suggesting that Wnt3a promotes anti-inflammatory functions in murine macrophages. The current data support the notion that evolutionarily conserved Wnt/Fzd signaling is involved in balancing the inflammatory response to microbial stimulation of innate immune cells of vertebrate origin.

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Unfavourable consequences of chronic cardiac HIF-1α stabilization

et al. 2012

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Changes induced with transgenic cardiac HIF-1α possibly mediate beneficial effects in the short term; however, with increased mechanical load and ageing they become detrimental for cardiac function. Together with the finding of increased HIF-1α protein levels in samples from human patients with cardiomyopathy, these data indicate that chronic HIF-1α stabilization drives autonomous pathways that add to disease progression.

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Carcinoma cells misuse the host tissue damage response to invade the brain

Chuang¹,

Rossum²,

Sieger

et al. 2013

Glia

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The metastatic colonization of the brain by carcinoma cells is still barely understood, in particular when considering interactions with the host tissue. The colonization comes with a substantial destruction of the surrounding host tissue. This leads to activation of damage responses by resident innate immune cells to protect, repair, and organize the wound healing, but may distract from tumoricidal actions. We recently demonstrated that microglia, innate immune cells of the CNS, assist carcinoma cell invasion. Here we report that this is a fatal side effect of a physiological damage response of the brain tissue. In a brain slice coculture model, contact with both benign and malignant epithelial cells induced a response by microglia and astrocytes comparable to that seen at the interface of human cerebral metastases. While the glial damage response intended to protect the brain from intrusion of benign epithelial cells by inducing apoptosis, it proved ineffective against various malignant cell types. They did not undergo apoptosis and actually exploited the local tissue reaction to invade instead. Gene expression and functional analyses revealed that the C-X-C chemokine receptor type 4 (CXCR4) and WNT signaling were involved in this process. Furthermore, CXCR4-regulated microglia were recruited to sites of brain injury in a zebrafish model and CXCR4 was expressed in human stroke patients, suggesting a conserved role in damage responses to various types of brain injuries. Together, our findings point to a detrimental misuse of the glial damage response program by carcinoma cells resistant to glia-induced apoptosis.

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The Stimulatory Gαs Protein Is Involved in Olfactory Signal Transduction in Drosophila

et al. 2011

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Seven-transmembrane receptors typically mediate olfactory signal transduction by coupling to G-proteins. Although insect odorant receptors have seven transmembrane domains like G-protein coupled receptors, they have an inverted membrane topology, constituting a key difference between the olfactory systems of insects and other animals. While heteromeric insect ORs form ligand-activated non-selective cation channels in recombinant expression systems, the evidence for an involvement of cyclic nucleotides and G-proteins in odor reception is inconsistent. We addressed this question in vivo by analyzing the role of G-proteins in olfactory signaling using electrophysiological recordings. We found that Gαs plays a crucial role for odorant induced signal transduction in OR83b expressing olfactory sensory neurons, but not in neurons expressing CO2 responsive proteins GR21a/GR63a. Moreover, signaling of Drosophila ORs involved Gαs also in a heterologous expression system. In agreement with these observations was the finding that elevated levels of cAMP result in increased firing rates, demonstrating the existence of a cAMP dependent excitatory signaling pathway in the sensory neurons. Together, we provide evidence that Gαs plays a role in the OR mediated signaling cascade in Drosophila.

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Katja Farhat

Heterodimerization of TLR2 with TLR1 or TLR6 expands the ligand spectrum but does not lead to differential signaling

Frizzled1 is a marker of inflammatory macrophages, and its ligand Wnt3a is involved in reprogrammingMycobacterium tuberculosis‐infected macrophages

Unfavourable consequences of chronic cardiac HIF-1α stabilization

Carcinoma cells misuse the host tissue damage response to invade the brain

The Stimulatory Gαs Protein Is Involved in Olfactory Signal Transduction in Drosophila

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