Jin Qi scite author profile

Skin and mucous membranes come in contact with external environment and protect tissues from infections by producing antimicrobial peptides. We report that human peptidoglycan recognition proteins 3 and 4 (PGLYRP3 and PGLYRP4) are secreted as 89 -115-kDa disulfide-linked homo-and heterodimers and are bactericidal against several pathogenic and nonpathogenic transient, but not normal flora, Gram-positive bacteria. PGLYRP3 and PGLYRP4 are also bacteriostatic toward all other tested bacteria, which include Gram-negative bacteria and normal flora Gram-positive bacteria. PGLYRP3 and PGLYRP4 are also active in vivo and protect mice against experimental lung infection. In contrast to antimicrobial peptides, PGLYRPs kill bacteria by interacting with their cell wall peptidoglycan, rather than permeabilizing their membranes. PGLYRP3 and PGLYRP4 are expressed in the skin, eyes, salivary glands, throat, tongue, esophagus, stomach, and intestine. Thus, we have identified the function of mammalian PGLYRP3 and PGLYRP4, and show that they are a new class of bactericidal and bacteriostatic proteins that have different structures, mechanism of actions, and expression patterns than antimicrobial peptides.

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Induction of acetylcholinesterase expression during apoptosis in various cell types

Zhang

et al. 2002

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Acetylcholinesterase (AChE) plays a key role in terminating neurotransmission at cholinergic synapses. AChE is also found in tissues devoid of cholinergic responses, indicating potential functions beyond neurotransmission. It has been suggested that AChE may participate in development, differentiation, and pathogenic processes such as Alzheimer's disease and tumorigenesis. We examined AChE expression in a number of cell lines upon induction of apoptosis by various stimuli. AChE is induced in all apoptotic cells examined as determined by cytochemical staining, immunological analysis, affinity chromatography purification, and molecular cloning. The AChE protein was found in the cytoplasm at the initiation of apoptosis and then in the nucleus or apoptotic bodies upon commitment to cell death. Sequence analysis revealed that AChE expressed in apoptotic cells is identical to the synapse type AChE. Pharmacological inhibitors of AChE prevented apoptosis. Furthermore, blocking the expression of AChE with antisense inhibited apoptosis. Therefore, our studies demonstrate that AChE is potentially a marker and a regulator of apoptosis.

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PGLYRP-2 and Nod2 Are Both Required for Peptidoglycan-Induced Arthritis and Local Inflammation

Saha

Wang

et al. 2009

Cell Host & Microbe

132

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SUMMARY Peptidoglycan recognition proteins (PGRPs) are structurally conserved from insects to mammals. Insect PGRPs have many host defense functions, whereas mammalian PGRPs only have bactericidal and amidase activities. We asked whether mammalian PGRPs have immunomodulating activities in peptidoglycan-induced arthritis and whether they interact with other innate immunity receptors. We demonstrate that PGLYRP-2 and Nod2 are both required for induction of arthritis by peptidoglycan. The sequence of events in peptidoglycan-induced arthritis is activation of Nod2, local expression of PGLYRP-2, chemokine production, and recruitment of neutrophils into the limbs, which induces acute arthritis. This proinflammatory function is unique for PGLYRP-2 and is not exhibited by other PGRPs, of which one (PGLYRP-1) is anti-inflammatory. TLR4 and MyD88 are required for maturation of neutrophils before peptidoglycan challenge. Our results reveal new in vivo functions of PGRPs, Nod2, and TLR4, and demonstrate in vivo interdependence of these three families of pattern recognition molecules in local inflammation.

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Jin Qi

Peptidoglycan Recognition Proteins Are a New Class of Human Bactericidal Proteins

Induction of acetylcholinesterase expression during apoptosis in various cell types

PGLYRP-2 and Nod2 Are Both Required for Peptidoglycan-Induced Arthritis and Local Inflammation

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