The highly conserved, ubiquitous molecular chaperone Hsp90 is a key regulator of cellular proteostasis and environmental stress responses. In human pathogenic fungi, which kill more than 1.6 million patients each year worldwide, Hsp90 governs cellular morphogenesis, drug resistance, and virulence. Yet, our understanding of the regulatory mechanisms governing fungal Hsp90 function remains sparse. Post-translational modifications are powerful components of nature’s toolbox to regulate protein abundance and function. Phosphorylation in particular is critical in many cellular signaling pathways and errant phosphorylation can have dire consequences for the cell. In the case of Hsp90, phosphorylation affects its stability and governs its interactions with co-chaperones and clients. Thereby modulating the cell’s ability to cope with environmental stress. Candida albicans, one of the leading human fungal pathogens, causes ~750,000 life-threatening invasive infections worldwide with unacceptably high mortality rates. Yet, it remains unknown if and how Hsp90 phosphorylation affects C. albicans virulence traits. Here, we show that phosphorylation of Hsp90 is critical for expression of virulence traits. We combined proteomics, molecular evolution analyses and structural modeling with molecular biology to characterize the role of Hsp90 phosphorylation in this non-model pathogen. We demonstrated that phosphorylation negatively affects key virulence traits, such as the thermal stress response, morphogenesis, and drug susceptibility. Our results provide the first record of a specific Hsp90 phosphorylation site acting as modulator of fungal virulence. Post-translational modifications of Hsp90 could prove valuable in future exploitations as antifungal drug targets.
The ubiquitous molecular chaperone Hsp90 is a key regulator of cellular proteostasis and environmental stress responses. Hsp90 also regulates cellular morphogenesis, drug resistance, and virulence in human pathogenic fungi, which kill more than 1.6 million patients each year worldwide. Invasive fungal infections are difficult to treat due to the lack of effective antifungal therapies, resulting in mortality rates of up to 95%. As a key regulator of fungal virulence, Hsp90 is an attractive therapeutic target. However, fungal and animal homologs are highly conserved, impeding fungal-specific targeting. Thus, understanding the factors that regulate Hsp90 could provide an alternative strategy aimed at exclusively targeting this regulator of fungal virulence. Here, we demonstrate how CK2-mediated phosphorylation of two Hsp90 residues modulates virulence in a major fungal pathogen of humans, Candida albicans. We combined proteomics, molecular evolution and structural modelling with molecular biology to identify and characterize two Hsp90 phosphorylation sites. Phosphorylation negatively affects thermal stress response, morphogenesis, drug susceptibility and fungal virulence. Our results provide the first record of specific Hsp90 phosphorylation sites acting as modulators of fungal virulence. Post-translational modifications of Hsp90 could prove valuable in future exploitation as antifungal drug targets.
In this paper, we describe a population of mothers who are opioid dependent at the time of giving birth and neonates exposed to opioids in utero who experience withdrawal following birth. While there have been studies of national trends in this population, there remains a gap in studies of regional trends. Using data from the Arizona Department of Health Services Hospital Discharge Database, this study aimed to characterize the population of neonates with neonatal opioid withdrawal syndrome (NOWS) and mothers who were opioid dependent at the time of giving birth, in Arizona. We analyzed approximately 1.2 million electronic medical records from the Arizona Department of Health Services Hospital Discharge Database to identify patterns and disparities across socioeconomic, ethnic, racial, and/or geographic groupings. In addition, we identified comorbid conditions that are differentially associated with NOWS in neonates or opioid dependence in mothers. Our analysis was designed to assess whether indicators such as race/ethnicity, insurance payer, marital status, and comorbidities are related to the use of opioids while pregnant. Our findings suggest that women and neonates who are non-Hispanic White and economically disadvantaged, tend be part of our populations of interest more frequently than expected. Additionally, women who are opioid dependent at the time of giving birth are unmarried more often than expected, and we suggest that marital status could be a proxy for support. Finally, we identified comorbidities associated with neonates who have NOWS and mothers who are opioid dependent not previously reported.
Staphylococcus aureus is the leading cause of soft tissue and skin infection, but also causes pneumonia, endocarditis, and bone infection. The same infections can be caused by methicillin resistant S. aureus (MRSA), but are much more difficult to treat because MRSA is highly resistant to antibiotics. In ethnic and socioeconomic minority groups, methicillin resistance in S. aureus is 30 % higher than the general population. As a result, methicillin resistance is likely to have higher prevalence in jails and prisons where the demographic is disproportionately represented by ethnic minorities, individuals with lower average socioeconomic status, and less access to healthcare. Jail inmates are an understudied but very important population because diseases acquired in jails can be easily introduced into the general population and vice versa because cycling into and out of jail is very common. The presence of S. aureus is an important determinant of the development of soft tissue and other infections, making the detection of this bacteria and the identification of antibiotic resistance essential in assessing risk of disease. In this study, we identified S. aureus in samples from a United States county jail through bacterial plating and DNA extraction. Methicillin resistance was identified in S. aureus positive samples through PCR and sequencing. Our analysis has found elevated rates of S. aureus in the jail population being studied. This project will determine if rates of S. aureus and methicillin resistance in S. aureus isolated from this demographic are disproportionate to the general population.
Dental caries, also known as cavities or dental decay, effects children at a rate five times higher than asthma in the United States. This disease is highly preventable but causes extreme pain and costs millions of dollars to treat every year. The presence of Streptococcus mutansand Streptococcus sobrinusplays a major role in the development and progression of tooth decay; therefore, it is important to establish colonization of these bacteria to assess the risk of developing the disease. Streptococcus bacteria are difficult to grow, extract, and sequence due to strict necessary growth conditions. In this study, we evaluated the performance of different storage and culturing protocols and developed strategies for reducing interference by unwanted bacterial and fungal genomes when sequencing extracted samples. We compared storage conditions of samples at various temperatures, and with and without glycerol. We decided the best storage method was at −80 °C in a specialized solution known as Aimes. When sequencing cultures, we encountered various unwanted bacterial and fungal genomes. To reduce this, we modified our culturing methods by including growth in anaerobic conditions and using serial isolation streaking. These modifications have limited the growth of aerobic specimens and increased culture purity before extraction. With this study, we will be able to better understand the oral microbiome and aim to identify virulence factors in S. mutans and S. sobrinus that contribute to the high rates of dental caries in children.
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