Joseph W. Jackson scite author profile

Candida albicans is among the most common causes of human fungal infections and is an important source of mortality. C . albicans is able to diminish its detection by innate immune cells through masking of β (1,3)-glucan in the inner cell wall with an outer layer of heavily glycosylated mannoproteins (mannan). However, mutations or drugs that disrupt the cell wall can lead to exposure of β (1,3)-glucan (unmasking) and enhanced detection by innate immune cells through receptors like Dectin-1, the C-type signaling lectin. Previously, our lab showed that the pathway for synthesizing the phospholipid phosphatidylserine (PS) plays a role in β (1,3)-glucan masking. The homozygous PS synthase knockout mutant, cho1Δ/Δ , exhibits increased exposure of β (1,3)-glucan. Several Mitogen Activated Protein Kinase (MAPK) pathways and their upstream Rho-type small GTPases are important for regulating cell wall biogenesis and remodeling. In the cho1Δ/Δ mutant, both the Cek1 and Mkc1 MAPKs are constitutively activated, and they act downstream of the small GTPases Cdc42 and Rho1, respectively. In addition, Cdc42 activity is up-regulated in cho1Δ/Δ . Thus, it was hypothesized that activation of Cdc42 or Rho1 and their downstream kinases cause unmasking. Disruption of MKC1 does not decrease unmasking in cho1Δ/Δ , and hyperactivation of Rho1 in wild-type cells increases unmasking and activation of both Cek1 and Mkc1. Moreover, independent hyperactivation of the MAP kinase kinase kinase Ste11 in wild-type cells leads to Cek1 activation and increased β (1,3)-glucan exposure. Thus, upregulation of the Cek1 MAPK pathway causes unmasking, and may be responsible for unmasking in cho1Δ/Δ .

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Induction of neutrophil extracellular traps by Campylobacter jejuni

Callahan

Doster

Jackson

et al. 2020

Cellular Microbiology

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There Is Always Another Way! Cytomegalovirus’ Multifaceted Dissemination Schemes

Jackson

Sparer

2018

Viruses

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Human cytomegalovirus (HCMV) is a β-herpes virus that is a significant pathogen within immune compromised populations. HCMV morbidity is induced through viral dissemination and inflammation. Typically, viral dissemination is thought to follow Fenner’s hypothesis where virus replicates at the site of infection, followed by replication in the draining lymph nodes, and eventually replicating within blood filtering organs. Although CMVs somewhat follow Fenner’s hypothesis, they deviate from it by spreading primarily through innate immune cells as opposed to cell-free virus. Also, in vivo CMVs infect new cells via cell-to-cell spread and disseminate directly to secondary organs through novel mechanisms. We review the historic and recent literature pointing to CMV’s direct dissemination to secondary organs and the genes that it has evolved for increasing its ability to disseminate. We also highlight aspects of CMV infection for studying viral dissemination when using in vivo animal models.

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Candida albicans Cannot Acquire Sufficient Ethanolamine from the Host To Support Virulence in the Absence of De Novo Phosphatidylethanolamine Synthesis

et al. 2018

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mutants for phosphatidylserine (PS) synthase (ΔΔ) and PS decarboxylase (ΔΔ ΔΔ) are compromised for virulence in mouse models of systemic infection and oropharyngeal Candidiasis (OPC). Both of these enzymes are necessary to synthesize phosphatidylethanolamine (PE) by the pathway, but these mutants are still capable of growth in culture media as they can import ethanolamine from media to synthesize PE through the Kennedy pathway. Given that the host has ethanolamine in its serum, the exact mechanism by which virulence is lost in these mutants is not clear. There are two competing hypotheses to explain their loss of virulence. 1) PE from the Kennedy pathway cannot substitute for synthesized PE. 2) The mutants cannot acquire sufficient ethanolamine from the host to support adequate PE synthesis. These hypotheses can be simultaneously tested if ethanolamine availability is increased for while it is inside the host. We accomplish this by transcomplementation of with the serine decarboxylase gene (), which converts cytoplasmic serine to ethanolamine. Expression of in either mutant restores PE synthesis even in the absence of exogenous ethanolamine. also restores virulence to ΔΔ andΔΔ ΔΔ in systemic and OPC infections. Thus, in the absence of PE synthesis, cannot acquire sufficient ethanolamine from the host to support virulence. In addition, expression of restores PS synthesis in the ΔΔ mutant, which may be due to causing PS decarboxylase to run backwards and convert PE to PS.

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Joseph W. Jackson

Exposure of Candida albicans β (1,3)-glucan is promoted by activation of the Cek1 pathway

Induction of neutrophil extracellular traps by Campylobacter jejuni

There Is Always Another Way! Cytomegalovirus’ Multifaceted Dissemination Schemes

Candida albicans Cannot Acquire Sufficient Ethanolamine from the Host To Support Virulence in the Absence of De Novo Phosphatidylethanolamine Synthesis

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