Your search keyword '"Lee, CWJ"' showing total 14 results

1. P181 Transition arrangements for young adults with asthma: uk national survey

Author

Lee, CWJ, primary, Patel, BR, additional, Nagarajan, T, additional, James, H, additional, Burhan, H, additional, and Jones, GH, additional

Published

2016

2. The 150-hour rule

Author

Lee, CWJ, Liu, CW, Wang, TC, Lee, CWJ, Liu, CW, and Wang, TC

Abstract

This paper adapts Dye's (1995) model to evaluate the effects of the 150-hour rule on the audit market. Incorporating the auditors' education as a joint input with the audit effort for determining the audit quality, we show that the audit fee is higher, pre-rule CPAs are better off, and audit clients are worse off as results of the Rule. Additionally, more pre-rule CPAs elect to enter the audit market. Some less wealthy post-rule CPAs who would otherwise get into the audit market choose not to. Surprisingly, the average audit quality in the market can be lower due to the Rule. (C) 1999 Elsevier Science B.V. All rights reserved. JEL classification: M4; I21; K13; L15.

Published

1999

3. Low balling, legal liability and auditor independence

Author

Lee, CWJ, Gu, ZY, Lee, CWJ, and Gu, ZY

Abstract

We construct a dynamic multi-agent moral hazard model to analyze the interactions among the firm owner, the manager and the auditor. Moral hazard may arise in hierarchical agency because a rational monitoring agent may accept a side payment from the monitored agent for misrepresenting information to the principal. This multi-agent moral hazard problem is the essence of the concern for auditor independence. We show that a "low-balling" compensation scheme and the auditor's legal liability constitute an efficient dynamic contracting mechanism for hierarchical agency. In particular, low balling serves as a substitute for legal liabilities for maintaining auditor independence. Low balling reduces the transaction costs associated with the audit engagement relative to the flat-fee structure and can actually improve auditor independence.

Published

1998

4. OPTIMAL PRICING STRATEGY IN MARKETING-RESEARCH CONSULTING

Author

CHANG, CH, LEE, CWJ, CHANG, CH, and LEE, CWJ

Abstract

This paper studies the optimal pricing scheme for a monopolistic marketing research consultant who sells high-cost proprietary marketing information to her oligopolistic clients in the manufacturing industry. In designing an optimal pricing strategy, the consultant needs to fully consider the behavior of her clients, the behavior of the existing and potential competitors to her clients and the behavior of her clients' customers. We show how the environment uncertainty, the capability of clients' internal research department, and the number of potential clients can affect the optimal pricing scheme.

Published

1994

5. Herbicides as fungicides: Targeting heme biosynthesis in the maize pathogen Ustilago maydis.

Author

Damoo D, Kretschmer M, Lee CWJ, Herrfurth C, Feussner I, Heimel K, and Kronstad JW

Subjects

Fungicides, Industrial pharmacology, Virulence drug effects, Basidiomycota, Zea mays microbiology, Heme biosynthesis, Heme metabolism, Plant Diseases microbiology, Herbicides pharmacology, Herbicides metabolism

Abstract

Pathogens must efficiently acquire nutrients from host tissue to proliferate, and strategies to block pathogen access therefore hold promise for disease control. In this study, we investigated whether heme biosynthesis is an effective target for ablating the virulence of the phytopathogenic fungus Ustilago maydis on maize plants. We first constructed conditional heme auxotrophs of the fungus by placing the heme biosynthesis gene hem12 encoding uroporphyrinogen decarboxylase (Urod) under the control of nitrogen or carbon source-regulated promoters. These strains were heme auxotrophs under non-permissive conditions and unable to cause disease in maize seedlings, thus demonstrating the inability of the fungus to acquire sufficient heme from host tissue to support proliferation. Subsequent experiments characterized the role of endocytosis in heme uptake, the susceptibility of the fungus to heme toxicity as well as the transcriptional response to exogenous heme. The latter RNA-seq experiments identified a candidate ABC transporter with a role in the response to heme and xenobiotics. Given the importance of heme biosynthesis for U. maydis pathogenesis, we tested the ability of the well-characterized herbicide BroadStar to influence disease. This herbicide contains the active ingredient flumioxazin, an inhibitor of Hem14 in the heme biosynthesis pathway, and we found that it was an effective antifungal agent for blocking disease in maize. Thus, repurposing herbicides for which resistant plants are available may be an effective strategy to control pathogens and achieve crop protection., (© 2024 The Author(s). Molecular Plant Pathology published by British Society for Plant Pathology and John Wiley & Sons Ltd.)

Published

2024

6. Loss of Opi3 causes a lipid imbalance that influences the virulence traits of Cryptococcus neoformans but not cryptococcosis.

Author

Lee CWJ, Brisland A, Qu X, Horianopoulos LC, Hu G, Mayer FL, and Kronstad JW

Subjects

Animals, Virulence, Mice, Lipid Metabolism, Fungal Proteins genetics, Fungal Proteins metabolism, Phosphatidylcholines metabolism, Virulence Factors genetics, Virulence Factors metabolism, Fungal Capsules metabolism, Fungal Capsules genetics, Cell Wall metabolism, Choline metabolism, Female, Lipid Droplets metabolism, Cryptococcus neoformans pathogenicity, Cryptococcus neoformans genetics, Cryptococcus neoformans metabolism, Cryptococcus neoformans growth & development, Cryptococcosis microbiology, Disease Models, Animal

Abstract

The basidiomycete fungus Cryptococcus neoformans is a useful model for investigating mechanisms of fungal pathogenesis in mammalian hosts. This pathogen is the causative agent of cryptococcal meningitis in immunocompromised patients and is in the critical priority group of the World Health Organization fungal priority pathogens list. In this study, we employed a mutant lacking the OPI3 gene encoding a methylene-fatty-acyl-phospholipid synthase to characterize the role of phosphatidylcholine (PC) and lipid homeostasis in the virulence of C. neoformans . We first confirmed that OPI3 was required for growth in nutrient limiting conditions, a phenotype that could be rescued with exogenous choline and PC. Additionally, we established that loss of Opi3 and the lack of PC lead to an accumulation of neutral lipids in lipid droplets and alterations in major lipid classes. The growth defect of the opi3Δ mutant was also rescued by sorbitol and polyethylene glycol (PEG), a result consistent with protection of ER function from the stress caused by lipid imbalance. We then examined the impact of Opi3 on virulence and found that the dependence of PC synthesis on Opi3 caused reduced capsule size and this was accompanied by an increase in shed capsule polysaccharide and changes in cell wall composition. Further tests of virulence demonstrated that survival in alveolar macrophages and the ability to cause disease in mice were not impacted by loss of Opi3 despite the choline auxotrophy of the mutant in vitro . Overall, this work establishes the contribution of lipid balance to virulence factor elaboration by C. neoformans and suggests that host choline is sufficient to support proliferation during disease., Competing Interests: FM is an employee of Springer Nature. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Lee, Brisland, Qu, Horianopoulos, Hu, Mayer and Kronstad.)

Published

2024

7. Loss of the putative Rab GTPase, Ypt7, impairs the virulence of Cryptococcus neoformans .

Author

Hu G, Qu X, Bhalla K, Xue P, Bakkeren E, Lee CWJ, and Kronstad JW

Abstract

Small GTPases of the Rab family coordinate multiple membrane fusion and trafficking events in eukaryotes. In fungi, the Rab GTPase, Ypt7, plays a critical role in late endosomal trafficking, and is required for homotypic fusion events in vacuole biogenesis and inheritance. In this study, we identified a putative YPT7 homologue in Cryptococcus neoformans , a fungal pathogen causing life threatening meningoencephalitis in immunocompromised individuals. As part of an ongoing effort to understand mechanisms of iron acquisition in C. neoformans , we established a role for Ypt7 in growth on heme as the sole iron source. Deletion of YPT7 also caused abnormal vacuolar morphology, defective endocytic trafficking and autophagy, and mislocalization of Aph1, a secreted vacuolar acid phosphatase. Ypt7 localized to the vacuolar membrane and membrane contact sites between the vacuole and mitochondria (vCLAMPs), and loss of the protein impaired growth on inhibitors of the electron transport chain. Additionally, Ypt7 was required for robust growth at 39°C, a phenotype likely involving the calcineurin signaling pathway because ypt7 mutants displayed increased susceptibility to the calcineurin-specific inhibitors, FK506 and cyclosporin A; the mutants also had impaired growth in either limiting or high levels of calcium. Finally, Ypt7 was required for survival during interactions with macrophages, and ypt7 mutants were attenuated for virulence in a mouse inhalation model thus demonstrating the importance of membrane trafficking functions in cryptococcosis., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Hu, Qu, Bhalla, Xue, Bakkeren, Lee and Kronstad.)

Published

2024

8. The interplay between electron transport chain function and iron regulatory factors influences melanin formation in Cryptococcus neoformans .

Author

Xue P, Sánchez-León E, Hu G, Lee CWJ, Black B, Brisland A, Li H, Jung WH, and Kronstad JW

Subjects

Iron metabolism, Electron Transport, Mitochondria metabolism, Iron-Regulatory Proteins metabolism, Iron-Regulatory Proteins genetics, Fungal Proteins genetics, Fungal Proteins metabolism, Gene Expression Regulation, Fungal, Virulence Factors metabolism, Virulence Factors genetics, Oxidative Stress, Transcription Factors metabolism, Transcription Factors genetics, Electron Transport Chain Complex Proteins metabolism, Electron Transport Chain Complex Proteins genetics, Melanins metabolism, Cryptococcus neoformans genetics, Cryptococcus neoformans pathogenicity, Cryptococcus neoformans metabolism

Abstract

Mitochondrial functions are critical for the ability of the fungal pathogen Cryptococcus neoformans to cause disease. However, mechanistic connections between key functions such as the mitochondrial electron transport chain (ETC) and virulence factor elaboration have yet to be thoroughly characterized. Here, we observed that inhibition of ETC complex III suppressed melanin formation, a major virulence factor. This inhibition was partially overcome by defects in Cir1 or HapX, two transcription factors that regulate iron acquisition and use. In this regard, loss of Cir1 derepresses the expression of laccase genes as a potential mechanism to restore melanin, while HapX may condition melanin formation by controlling oxidative stress. We hypothesize that ETC dysfunction alters redox homeostasis to influence melanin formation. Consistent with this idea, inhibition of growth by hydrogen peroxide was exacerbated in the presence of the melanin substrate L-DOPA. In addition, loss of the mitochondrial chaperone Mrj1, which influences the activity of ETC complex III and reduces ROS accumulation, also partially overcame antimycin A inhibition of melanin. The phenotypic impact of mitochondrial dysfunction was consistent with RNA-Seq analyses of WT cells treated with antimycin A or L-DOPA, or cells lacking Cir1 that revealed influences on transcripts encoding mitochondrial functions (e.g., ETC components and proteins for Fe-S cluster assembly). Overall, these findings reveal mitochondria-nuclear communication via ROS and iron regulators to control virulence factor production in C. neoformans .IMPORTANCEThere is a growing appreciation of the importance of mitochondrial functions and iron homeostasis in the ability of fungal pathogens to sense the vertebrate host environment and cause disease. Many mitochondrial functions such as heme and iron-sulfur cluster biosynthesis, and the electron transport chain (ETC), are dependent on iron. Connections between factors that regulate iron homeostasis and mitochondrial activities are known in model yeasts and are emerging for fungal pathogens. In this study, we identified connections between iron regulatory transcription factors (e.g., Cir1 and HapX) and the activity of complex III of the ETC that influence the formation of melanin, a key virulence factor in the pathogenic fungus Cryptococcus neoformans . This fungus causes meningoencephalitis in immunocompromised people and is a major threat to the HIV/AIDS population. Thus, understanding how mitochondrial functions influence virulence may support new therapeutic approaches to combat diseases caused by C. neoformans and other fungi., Competing Interests: The authors declare no conflict of interest.

Published

2024

9. The Monothiol Glutaredoxin Grx4 Influences Iron Homeostasis and Virulence in Ustilago maydis .

Author

McCotter SW, Kretschmer M, Lee CWJ, Heimel K, and Kronstad JW

Abstract

The corn smut fungus, Ustilago maydis , is an excellent model for studying biotrophic plant-pathogen interactions, including nutritional adaptation to the host environment. Iron acquisition during host colonization is a key aspect of microbial pathogenesis yet less is known about this process for fungal pathogens of plants. Monothiol glutaredoxins are central regulators of key cellular functions in fungi, including iron homeostasis, cell wall integrity, and redox status via interactions with transcription factors, iron-sulfur clusters, and glutathione. In this study, the roles of the monothiol glutaredoxin Grx4 in the biology of U. maydis were investigated by constructing strains expressing a conditional allele of grx4 under the control of the arabinose-inducible, glucose-repressible promoter P crg 1 . The use of conditional expression was necessary because Grx4 appeared to be essential for U. maydis. Transcriptome and genetic analyses with strains depleted in Grx4 revealed that the protein participates in the regulation of iron acquisition functions and is necessary for the ability of U. maydis to cause disease on maize seedlings. Taken together, this study supports the growing appreciation of monothiol glutaredoxins as key regulators of virulence-related phenotypes in pathogenic fungi.

Published

2023

10. Organic acids and glucose prime late-stage fungal biotrophy in maize.

Author

Kretschmer M, Damoo D, Sun S, Lee CWJ, Croll D, Brumer H, and Kronstad J

Subjects

Fungal Proteins genetics, Fungal Proteins metabolism, Virulence, Dicarboxylic Acids metabolism, Glucose metabolism, Host-Pathogen Interactions, Plant Tumors microbiology, Ustilago genetics, Ustilago metabolism, Ustilago pathogenicity, Zea mays microbiology

Abstract

Many plant-associated fungi are obligate biotrophs that depend on living hosts to proliferate. However, little is known about the molecular basis of the biotrophic lifestyle, despite the impact of fungi on the environment and food security. In this work, we show that combinations of organic acids and glucose trigger phenotypes that are associated with the late stage of biotrophy for the maize pathogen Ustilago maydis . These phenotypes include the expression of a set of effectors normally observed only during biotrophic development, as well as the formation of melanin associated with sporulation in plant tumors. U. maydis and other hemibiotrophic fungi also respond to a combination of carbon sources with enhanced proliferation. Thus, the response to combinations of nutrients from the host may be a conserved feature of fungal biotrophy.

Published

2022

11. A life-history trade-off gene with antagonistic pleiotropic effects on reproduction and survival in limiting environments.

Author

Saggere RMS, Lee CWJ, Chan ICW, Durnford DG, and Nedelcu AM

Subjects

Phenotype, Reproduction physiology

Abstract

Although life-history trade-offs are central to life-history evolution, their mechanistic basis is often unclear. Traditionally, trade-offs are understood in terms of competition for limited resources among traits within an organism, which could be mediated by signal transduction pathways at the level of cellular metabolism. Nevertheless, trade-offs are also thought to be produced as a consequence of the performance of one activity generating negative consequences for other traits, or the result of genes or pathways that simultaneously regulate two life-history traits in opposite directions (antagonistic pleiotropy), independent of resource allocation. Yet examples of genes with antagonistic effects on life-history traits are limited. This study provides direct evidence for a gene- RLS1 , that is involved in increasing survival in nutrient-limiting environments at a cost to immediate reproduction in the single-celled photosynthetic alga, Chlamydomonas reinhardtii . Specifically, we show that RLS1 mutants are unable to properly suppress their reproduction in phosphate-deprived conditions. Although these mutants have an immediate reproductive advantage relative to the parental strain, their long-term survival is negatively affected. Our data suggest that RLS1 is a bona fide life-history trade-off gene that suppresses immediate reproduction and ensures survival by downregulating photosynthesis in limiting environments, as part of the general acclimation response to nutrient deprivation in photosynthetic organisms.

Published

2022

12. A J Domain Protein Functions as a Histone Chaperone to Maintain Genome Integrity and the Response to DNA Damage in a Human Fungal Pathogen.

Author

Horianopoulos LC, Lee CWJ, Schmitt K, Valerius O, Hu G, Caza M, Braus GH, and Kronstad JW

Subjects

Cryptococcus neoformans chemistry, Cryptococcus neoformans growth & development, Fungal Proteins genetics, Gene Expression Regulation, Fungal, Histone Chaperones chemistry, Histone Chaperones genetics, Histones genetics, Histones metabolism, Humans, Iron metabolism, Protein Binding, Protein Domains, Cryptococcosis microbiology, Cryptococcus neoformans genetics, Cryptococcus neoformans metabolism, DNA Damage, Fungal Proteins metabolism, Histone Chaperones metabolism

Abstract

Histone chaperoning ensures genomic integrity during routine processes such as DNA replication and transcription as well as DNA repair upon damage. Here, we identify a nuclear J domain protein, Dnj4, in the fungal pathogen Cryptococcus neoformans and demonstrate that it interacts with histones 3 and 4, suggesting a role as a histone chaperone. In support of this idea, a dnj4Δ deletion mutant had elevated levels of DNA damage and was hypersensitive to DNA-damaging agents. The transcriptional response to DNA damage was also impaired in the dnj4Δ mutant. Genes related to DNA damage and iron homeostasis were upregulated in the wild-type strain in response to hydroxyurea treatment; however, their upregulation was either absent from or reduced in the dnj4Δ mutant. Accordingly, excess iron rescued the mutant's growth in response to DNA-damaging agents. Iron homeostasis is crucial for virulence in C. neoformans; however, Dnj4 was found to be dispensable for disease in a mouse model of cryptococcosis. Finally, we confirmed a conserved role for Dnj4 as a histone chaperone by expressing it in Saccharomyces cerevisiae and showing that it disrupted endogenous histone chaperoning. Altogether, this study highlights the importance of a JDP cochaperone in maintaining genome integrity in C. neoformans. IMPORTANCE DNA replication, gene expression, and genomic repair all require precise coordination of the many proteins that interact with DNA. This includes the histones as well as their chaperones. In this study, we show that a histone chaperone, Dnj4, is required for genome integrity and for the response to DNA damage. The gene encoding this protein in Cryptococcus neoformans lacks an ortholog in Saccharomyces cerevisiae; however, it is conserved in humans in which its ortholog is essential. Since it is not essential in C. neoformans, we were able to generate deletion mutants to characterize the roles of Dnj4. We also expressed Dnj4 in S. cerevisiae, in which it was able to bind S. cerevisiae histones and interfere with existing histone chaperoning machinery. Therefore, we show a conserved role for Dnj4 in histone chaperoning that suggests that C. neoformans is useful to better understand aspects of this important biological process.

Published

2021

13. Acute Wernicke's encephalopathy in a young female after sleeve gastrectomy.

Author

Lee CWJ, Tuck L, Kumar S, and Nye E

Subjects

Female, Gastrectomy adverse effects, Humans, Obesity, Morbid surgery, Wernicke Encephalopathy diagnosis, Wernicke Encephalopathy etiology

Published

2021

14. Dnj1 Promotes Virulence in Cryptococcus neoformans by Maintaining Robust Endoplasmic Reticulum Homeostasis Under Temperature Stress.

Author

Horianopoulos LC, Lee CWJ, Hu G, Caza M, and Kronstad JW

Abstract

The capacity of opportunistic fungal pathogens such as Cryptococcus neoformans to cause disease is dependent on their ability to overcome an onslaught of stresses including elevated temperature under mammalian host conditions. Protein chaperones and co-chaperones play key roles in thermotolerance. In this study, we characterized the role of the endoplasmic reticulum (ER) J-domain containing co-chaperone, Dnj1, in the virulence of C. neoformans . A strain expressing a Dnj1-GFP fusion protein was used to confirm localization to the ER, and a dnj1∆ deletion mutant was shown to be hypersensitive to the ER stress caused by tunicamycin (TM) or 4μ8C. Dnj1 and another ER chaperone, calnexin were found to coordinately maintain ER homeostasis and contribute to maintenance of cell wall architecture. Dnj1 also contributed to thermotolerance and increased in abundance at elevated temperatures representative of febrile patients (e.g., 39°C) thus highlighting its role as a temperature-responsive J domain protein. The elaboration of virulence factors such as the polysaccharide capsule and extracellular urease activity were also markedly impaired in the dnj1∆ mutant when induced at human body temperature (i.e., 37°C). These virulence factors are immunomodulatory and, indeed, infection with the dnj1∆ mutant revealed impaired induction of the cytokines IL-6, IL-10, and MCP-1 in the lungs of mice compared to infection with wild type or complemented strains. The dnj1∆ mutant also had attenuated virulence in an intranasal murine model of cryptococcosis. Altogether, our data indicate that Dnj1 is crucial for survival and virulence factor production at elevated temperatures. The characterization of this co-chaperone also highlights the importance of maintaining homeostasis in the ER for the pathogenesis of C. neoformans ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Horianopoulos, Lee, Hu, Caza and Kronstad.)

Published

2021