Folate Receptor-Targeted Diagnostics and Therapeutics for Inflammatory Diseases

Yi, Young-Su

doi:10.4110/in.2016.16.6.337

Cited by 113 publications

(83 citation statements)

References 44 publications

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“…Inflammation is a series of biological processes that evolved to protect the body from invading pathogens and is characterized by heat, redness, swelling, pain and loss of function . Inflammation as part of the innate immune response is mediated primarily by macrophages and initiated by a highly conserved group of receptors known as pattern recognition receptors (PRRs) that recognize pathogen‐associated molecular patterns (PAMPs) derived from pathogens .…”

Section: Introductionmentioning

confidence: 99%

Caspase‐11 non‐canonical inflammasome: a critical sensor of intracellular lipopolysaccharide in macrophage‐mediated inflammatory responses

2017

Immunology

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SummaryInflammatory responses mediated by macrophages are part of the innate immune system, whose role is to protect against invading pathogens. Lipopolysaccharide (LPS) found in the outer membrane of Gram-negative bacteria stimulates an inflammatory response by macrophages. During the inflammatory response, extracellular LPS is recognized by Toll-like receptor 4, one of the pattern recognition receptors that activates inflammatory signalling pathways and leads to the production of inflammatory mediators. The innate immune response is also triggered by intracellular inflammasomes, and inflammasome activation induces pyroptosis and the secretion of pro-inflammatory cytokines such as interleukin-1b (IL-1b) and IL-18 by macrophages. Cysteine-aspartic protease (caspase)-11 and the human orthologues caspase-4/caspase-5 were recently identified as components of the 'non-canonical inflammasome' that senses intracellular LPS derived from Gram-negative bacteria during macrophage-mediated inflammatory responses. Direct recognition of intracellular LPS facilitates the rapid oligomerization of caspase-11/4/5, which results in pyroptosis and the secretion of IL-1b and IL-18. LPS is released into the cytoplasm from Gram-negative bacterium-containing vacuoles by small interferoninducible guanylate-binding proteins encoded on chromosome 3 (GBP chr3 )-mediated lysis of the vacuoles. In vivo studies have clearly shown that caspase-11 À/À mice are more resistant to endotoxic septic shock by excessive LPS challenge. Given the evidence, activation of caspase-11 non-canonical inflammasomes by intracellular LPS is distinct from canonical inflammasome activation and provides a new paradigm in macrophagemediated inflammatory responses.

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Section: Introductionmentioning

confidence: 99%

Caspase‐11 non‐canonical inflammasome: a critical sensor of intracellular lipopolysaccharide in macrophage‐mediated inflammatory responses

2017

Immunology

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191

216

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“…Inflammation is a series of biological processes to protect the body from invading pathogens and danger signals/molecules of stressed cells . Inflammation is a host–defense mechanism mainly mediated by myeloid immune cells and characterized by redness, heat, pain, swelling, and loss of function .…”

Section: Introductionmentioning

confidence: 99%

Regulatory Roles of Flavonoids on Inflammasome Activation during Inflammatory Responses

2018

Molecular Nutrition Food Res

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Inflammation is an innate immune response to noxious stimuli to protect the body from pathogens. Inflammatory responses consist of two main steps: priming and triggering. In priming, inflammatory cells increase expressions of inflammatory molecules, while in triggering, inflammasomes are activated, resulting in cell death and pro-inflammatory cytokine secretion. Inflammasomes are protein complexes comprising intracellular pattern recognition receptors (PRRs) (e.g., nucleotide-binding oligomerization domain-like receptors (NLRs), absent in melanoma 2 (AIM2), and caspases-4/5/11) and pro-caspase-1 with or without a bipartite adaptor molecule ASC. Inflammasome activation induces pyroptosis, inflammatory cell death, and stimulates caspase-1-mediated secretion of interleukin (IL)-1b and IL-18. Flavonoids are secondary metabolites found in various plants and are considered as critical ingredients promoting health and ameliorating various disease symptoms. Anti-inflammatory activity of flavonoids and underlying mechanisms have been widely studied. This review introduces current knowledge on different types of inflammasomes and their activation during inflammatory responses and discusses recent studies regarding anti-inflammatory roles of flavonoids as suppressors of inflammasomes in inflammatory conditions. Understanding the regulatory effects of flavonoids on inflammasome activation will increase our knowledge of flavonoid-mediated anti-inflammatory activity and provide new insights into the development of flavonoid preparations to prevent and treat human inflammatory diseases.

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“…1 Several macrophage-specific surface receptors have been described including mannose receptor, 2 folate receptor, 3 and TIM-4 or BAI-1 4,5 that can potentially be used for effective targeting. Although folate-functionalized nanomedicine to target cancerous tissue-associated macrophages has been described 6 ; strategies to target dysfunctional macrophages in other chronic diseases such as atherosclerosis are very limited.…”

Section: Introductionmentioning

confidence: 99%

Development of mannose functionalized dendrimeric nanoparticles for targeted delivery to macrophages: use of this platform to modulate atherosclerosis

Yuan

Bie

et al. 2018

Translational Research

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Dysfunctional macrophages underlie the development of several diseases including atherosclerosis where accumulation of cholesteryl esters and persistent inflammation are 2 of the critical macrophage processes that regulate the progression as well as stability of atherosclerotic plaques. Ligand-dependent activation of liver-x-receptor (LXR) not only enhances mobilization of stored cholesteryl ester but also exerts anti-inflammatory effects mediated via trans-repression of proinflammatory transcription factor nuclear factor kappa B. However, increased hepatic lipogenesis by systemic administration of LXR ligands (LXR-L) has precluded their therapeutic use. The objective of the present study was to devise a strategy to selectively deliver LXR-L to atherosclerotic plaque-associated macrophages while limiting hepatic uptake. Mannose-functionalized dendrimeric nanoparticles (mDNP) were synthesized to facilitate active uptake via the mannose receptor expressed exclusively by macrophages using polyamidoamine dendrimer. Terminal amine groups were used to conjugate mannose and LXR-L T091317 via polyethylene glycol spacers. mDNPLXR-L was effectively taken up by macrophages (and not by hepatocytes), increased expression of LXR target genes (ABCA1/ABCG1), and enhanced cholesterol efflux. When administered intravenously to LDLR−/− mice with established plaques, significant accumulation of fluorescently labeled mDNP-LXR-L was seen in atherosclerotic plaque-associated macrophages. Four weekly injections of mDNP-LXR-L led to significant reduction in atherosclerotic plaque progression, plaque necrosis, and plaque inflammation as assessed by expression of nuclear factor kappa B target gene matrix metalloproteinase 9; no increase in hepatic lipogenic genes or plasma lipids was observed. These studies validate the development of a macrophage-specific delivery platform for the delivery of anti-atherosclerotic agents directly to the plaque-associated macrophages to attenuate plaque burden.

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Folate Receptor-Targeted Diagnostics and Therapeutics for Inflammatory Diseases

Cited by 113 publications

References 44 publications

Caspase‐11 non‐canonical inflammasome: a critical sensor of intracellular lipopolysaccharide in macrophage‐mediated inflammatory responses

Caspase‐11 non‐canonical inflammasome: a critical sensor of intracellular lipopolysaccharide in macrophage‐mediated inflammatory responses

Regulatory Roles of Flavonoids on Inflammasome Activation during Inflammatory Responses

Development of mannose functionalized dendrimeric nanoparticles for targeted delivery to macrophages: use of this platform to modulate atherosclerosis

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