Hans Liu scite author profile

Pneumococcal cell wall induces meningeal inflammation in rabbits injected intracisternally with >10 5 cell equivalents. Both of the major cell wall components, teichoic acid and peptidoglycan, contribute to this inflammatory activity although responses differ depending on the chemical nature, size, and complexity of these fractions. Challenge with teichoic acid (membrane or wall associated) results in greater inflammation at 5 hr than at 24 hr. Degraded teichoic acid is inactive. In contrast, the inflammation caused by whole cell wall or high-molecular-weight peptidoglycan-containing fractions increases in intensity from 5 to 24 hr. Peptidoglycan fractions lose activity at 24 hr when hydrolyzed to disaccharide-stem peptide moieties. Generation of free cellwallcomponents in cerebrospinal fluid as, for example, during treatment with antibiotics that are bacteriolytic as well as bactericidal, could contribute to increased inflammation in the subarachnoid space.The cell wall of pneumococci, located under a layer of capsular polysaccharide, remains surprisingly accessible to and reactive with the host environment [1]. We have shown that meningeal inflammation in rabbits is induced when whole pneumococci, with or without capsular polysaccharide, reach a density of >10 5 cfu/ml of CSF. This inflammatory response is remarkably similar to the inflammation following challenge with 105 cellequivalents of isolated cell wall, but not of isolated capsule [2]. Because the cell wall is a complex macromolecule with many possible sites of interaction with several host defense systems, the identification of which cell wall component(s) is active in inducing inflammation during pneumococcal meningitis is of considerable importance.The pneumococcal cell wall is composed of two major polymers: a peptidoglycan and a ribitolphosphate teichoic acid of unusually complex structure that contains phosphorylcholine [3]. The inter-

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A mevalonate bypass system facilitates elucidation of plastid biology in malaria parasites

Swift

et al. 2020

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Malaria parasites rely on a plastid organelle for survival during the blood stages of infection. However, the entire organelle is dispensable as long as the isoprenoid precursor, isopentenyl pyrophosphate (IPP), is supplemented in the culture medium. We engineered parasites to produce isoprenoid precursors from a mevalonate-dependent pathway, creating a parasite line that replicates normally after the loss of the apicoplast organelle. We show that carbon-labeled mevalonate is specifically incorporated into isoprenoid products, opening new avenues for researching this essential class of metabolites in malaria parasites. We also show that essential apicoplast proteins, such as the enzyme target of the drug fosmidomycin, can be deleted in this mevalonate bypass parasite line, providing a new method to determine the roles of other important apicoplast-resident proteins. Several antibacterial drugs kill malaria parasites by targeting basic processes, such as transcription, in the organelle. We used metabolomic and transcriptomic methods to characterize parasite metabolism after azithromycin treatment triggered loss of the apicoplast and found that parasite metabolism and the production of apicoplast proteins is largely unaltered. These results provide insight into the effects of apicoplast-disrupting drugs, several of which have been used to treat malaria infections in humans. Overall, the mevalonate bypass system provides a way to probe essential aspects of apicoplast biology and study the effects of drugs that target apicoplast processes.

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Keratin 6 regulates collective keratinocyte migration by altering cell–cell and cell–matrix adhesion

Wang

Chen

Liu

et al. 2018

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The a and b isoforms of keratin 6 (K6), a type II intermediate filament (IF) protein, are robustly induced upon injury to interfollicular epidermis. We previously showed that complete loss of K6a/K6b stimulates keratinocyte migration, correlating with enhanced Src activity. In this study, we demonstrate that this property is cell autonomous, depends on the ECM, and results from elevated speed, enhanced directionality, and an increased rate of focal adhesion disassembly. We show that myosin IIA interacts with K6a/K6b, that its levels are markedly reduced in Krt6a/Krt6b-null keratinocytes, and that inhibiting myosin ATPase activity normalizes the enhanced migration potential of Krt6a/Krt6b-null cells. Desmoplakin, which mediates attachment of IFs to desmosomes, is also expressed at reduced levels and is mislocalized to the nucleus in Krt6a/Krt6b-null cells, correlating with defects in cell adhesion. These findings reveal that K6a/K6b modulate keratinocyte migration by regulating cell–matrix and cell–cell adhesion and highlight a role for keratins in collective cell migration.

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Is it Time to Include Vancomycin for Routine Perioperative Antibiotic Prophylaxis in Total Joint Arthroplasty Patients?

Smith¹,

Wynne²,

Joshi³

et al. 2012

The Journal of Arthroplasty

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Hans Liu

The Induction of Meningeal Inflammation by Components of the Pneumococcal Cell Wall

A mevalonate bypass system facilitates elucidation of plastid biology in malaria parasites

Keratin 6 regulates collective keratinocyte migration by altering cell–cell and cell–matrix adhesion

Is it Time to Include Vancomycin for Routine Perioperative Antibiotic Prophylaxis in Total Joint Arthroplasty Patients?

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