Maria Elsa Gambuzza scite author profile

Little is known of how and where bacterial recognition triggers the induction of type I interferon. Whether the type of recognition receptor used in these responses is determined by the subcellular location of bacteria is not understood. Here we show that phagosomal bacteria such as group B streptococcus, but not cytosolic bacteria, potently induced interferon in conventional dendritic cells by a mechanism that required Toll-like receptor 7, the adaptor MyD88 and the transcription factor IRF1, all of which localized together with bacterial products in degradative vacuoles bearing lysosomal markers. Thus, this cell type-specific recognition pathway links lysosomal recognition of bacterial RNA with a robust, host-protective interferon response.

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Type I IFN Signaling Is Crucial for Host Resistance against Different Species of Pathogenic Bacteria

Mancuso

et al. 2007

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It is known that host cells can produce type I IFNs (IFN-αβ) after exposure to conserved bacterial products, but the functional consequences of such responses on the outcome of bacterial infections are incompletely understood. We show in this study that IFN-αβ signaling is crucial for host defenses against different bacteria, including group B streptococci (GBS), pneumococci, and Escherichia coli. In response to GBS challenge, most mice lacking either the IFN-αβR or IFN-β died from unrestrained bacteremia, whereas all wild-type controls survived. The effect of IFN-αβR deficiency was marked, with mortality surpassing that seen in IFN-γR-deficient mice. Animals lacking both IFN-αβR and IFN-γR displayed additive lethality, suggesting that the two IFN types have complementary and nonredundant roles in host defenses. Increased production of IFN-αβ was detected in macrophages after exposure to GBS. Moreover, in the absence of IFN-αβ signaling, a marked reduction in macrophage production of IFN-γ, NO, and TNF-α was observed after stimulation with live bacteria or with purified LPS. Collectively, our data document a novel, fundamental function of IFN-αβ in boosting macrophage responses and host resistance against bacterial pathogens. These data may be useful to devise alternative strategies to treat bacterial infections.

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Toll-Like Receptors in Alzheimer’s Disease: A Therapeutic Perspective

Gambuzza¹,

Sofo²,

Salmeri³

et al. 2014

CNSNDDT

117

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Alzheimer's disease (AD) is a neurodegenerative disorder mainly characterized by amyloid-β (Aβ) plaques, neurofibrillary tangles, loss of synapses and neurons and chronic neuroinflammation. Emerging data highlight the involvement of innate immunity, that has been shown to play opposing roles during the AD progression. Activated microglia and reactive astrocytes exert neuroprotection mediated through Aβ phagocytosis in the early stage, whereas, as the disease progresses, they fail in Aβ clearance and exert detrimental effects, including neuroinflammation and neurodegeneration. Specific toll-like receptors (TLRs) and coreceptors can directly or indirectly be activated to induce Aβ uptake or inflammatory responses, depending on the disease stage. Fibrillar Aβ can directly interact with TLR2, TLR4, and CD14 to induce microglial Aβ phagocytosis in the beginning stages, and neuroinflammatory responses in the late stages. Early TLR3-mediated signal enhances neuronal Aβ autophagy, although it increases neuronal apoptosis in the late AD stage. Similarly, TLR7, TLR8 and TLR9 can enhance microglial Aβ uptake in the early stage, but over time they contribute to neuroinflammation. Therefore, TLRs, and in particular TLR2 and TLR4, represent a suitable target for therapeutic intervention within the disease progression and targeting them carefully could increase Aβ autophagy and phagocytosis or reduce inflammatory responses. Several modulators with selective TLR agonist or antagonist activity have been developed, and many of them could have a therapeutic benefit in AD patients. This paper outlines the role of specific TLRs in AD, also focusing on TLR-targeted compounds yet indicated for the treatment of other inflammatory diseases, that could be used to treat the different stages of the disease.

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Bacteroides fragilis-Derived Lipopolysaccharide Produces Cell Activation and Lethal Toxicity via Toll-Like Receptor 4

et al. 2005

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Bacteroides fragilis, which is part of the normal intestinal flora, is a frequent cause of serious disease, especially in diabetic and surgical patients. In these conditions, B. fragilis lipopolysaccharide (LPS) is likely to play a major pathophysiologic role. B. fragilis LPS is structurally different from classical enterobacterial LPS, whose biological activities are mediated by Toll-like receptor 4 (TLR4) activation. The ability of B. fragilis LPS to activate TLR4 and TLR2 was investigated here, since evidence on this issue is scarce and controversial. Each of four different protein-free B. fragilis LPS preparations could induce interleukin-8 responses in cells cotransfected with TLR4/CD14/MD2 but not TLR4/CD14 alone. Two of the preparations also induced cytokine production in cells cotransfected with TLR2/CD14 or in peritoneal macrophages from TLR4 mutant C3H/HeJ mice. Both of these activities, however, were lost after repurification with a modified phenol reextraction procedure. Importantly, all preparations could induce endotoxic shock in TLR2-deficient mice, but not in TLR4 mutant C3H/HeJ mice. Consistent with these findings, anti-TLR4 and anti-CD14, but not anti-TLR2, antibodies could inhibit B. fragilis LPS-induced cytokine production in human monocytes. Collectively, these results indicate that B. fragilis LPS signals via a TLR4/CD14/MD2-dependent pathway, and it is unable to activate TLR2. Moreover, our data document the occurrence of TLR2-activating contaminants even in highly purified B. fragilis LPS preparations. This may explain earlier contradictory findings on the ability of B. fragilis LPS to activate cells in the absence of functional TLR4. These data may be useful to devise strategies to prevent the pathophysiologic changes observed during B. fragilis sepsis and to better understand structure-activity relationships of LPS.

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Targeting Toll-like receptors: Emerging therapeutics for multiple sclerosis management

Gambuzza

Licata

Palella

et al. 2011

Journal of Neuroimmunology

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