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1. Coordinated regulation of Mdr1- and Cdr1-mediated protection from antifungals by the Mrr1 transcription factor in emerging Candida spp.

   https://doi.org/10.1128/mbio.01323-25  

   Rajesh-Khanna, Dhanabala-Subhiksha; Piña_Páez, Carolina G; He, Susu; Dolan, Elora G; Mirpuri, Kiran S; Stajich, Jason E; Hogan, Deborah A (November 2025, mBio)

   Goldman, Gustavo H (Ed.)

   ABSTRACT Infections caused by the emerging pathogenic yeastClavispora (Candida) lusitaniaecan be difficult to manage due to multi-drug resistance. Resistance to the frontline antifungal fluconazole (FLZ) inCandidaspp. is commonly acquired through gain-of-function (GOF) mutations in the gene encoding the transcription factor Mrr1. These activated Mrr1 variants enhance FLZ efflux via upregulation of the multi-drug transporter geneMDR1. Recently, it was reported that, unlike in the well-studiedCandida albicansspecies,C. lusitaniaeandCandida parapsilosiswith activated Mrr1 also have high expression ofCDR1, which encodes another multi-drug transporter with overlapping but distinct transported substrate profiles and Cdr1-dependent FLZ resistance. To better understand the mechanisms of Mrr1 regulation ofMDR1andCDR1, and other co-regulated genes, we performed Cleavage Under Targets and Release Using Nuclease (CUT&RUN) analysis of Mrr1 binding sites. Mrr1 bound the promoter regions ofMDR1andCDR1, as well asFLU1, which encodes another transporter capable of FLZ efflux. Mdr1 and Cdr1 independently contributed to the decreased susceptibility of theMRR1^GOFstrains against diverse clinical azoles and other antifungals, including 5-flucytosine. A consensus motif, CGGAGWTAR, enriched in Mrr1-boundC. lusitaniaeDNA was also conserved upstream ofMDR1andCDR1across species, includingC. albicans. CUT&RUN and RNA-seq data were used to define the Mrr1 regulon, which includes genes involved in transport, stress response, and metabolism. Activated and inducible Mrr1 bound similar regions in the promoters of Mrr1 regulon genes. Our studies provide new evolutionary insights into the coordinated regulation of multi-drug transporters and potential mechanism(s) that aid secondary resistance acquisition in emergingCandida. IMPORTANCEUnderstanding antifungal resistance in emergingCandidapathogens is essential to managing treatment failures and guiding the development of new therapeutic strategies. Like otherCandidaspecies, the environmental opportunistic fungal pathogenClavispora(Candida)lusitaniaecan acquire resistance to the antifungal fluconazole by overexpression of the multi-drug efflux pump Mdr1 through gain-of-function (GOF) mutations in the gene encoding the transcription factor Mrr1. Here, we show thatC. lusitaniaeMrr1 also directly regulatesCDR1, another major multi-drug transporter gene, along withMDR1. In strains with activated Mrr1, upregulation ofMDR1andCDR1protects against diverse antifungals, potentially aiding the rise of other resistance mutations. Mrr1 also regulates several stress response and metabolism genes, thereby providing new perspectives into the physiology of drug-resistant strains. The identification of an Mrr1 binding motif that is conserved across strains and species will advance future efforts to understand multi-drug resistance acrossCandidaspecies. 

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2. Four nudivirus core genes present in the genome of Venturia canescens are required for virus-like particle formation and prevention of encapsulation of parasitoid wasp eggs

   https://doi.org/10.1128/jvi.01305-25  

   Mao, Meng; Stouthamer, Corinne M; Lorenzi, Ange; Strand, Michael R; Burke, Gaelen R (November 2025, Journal of Virology)

   van_Oers, Monique M (Ed.)

   ABSTRACT Venturia canescensis a parasitoid wasp that harbors a domesticated endogenous virus (DEV) and parasitizes host insects likeEphestia kuehniella. TheV. canescensDEV evolved from an alphanudivirus and produces virus-like particles (VLPs) in females that protect wasp eggs from a host immune defense called encapsulation. In contrast, very few DEV genes required for VLP formation and function have been identified. In this study, we characterized fiveV. canescensDEV genes of unknown function that all nudiviruses encode. Three of these genes are single copy (OrNVorf18-like,OrNVorf61-like, andOrNVorf76-like), whileOrNVorf41-likehas expanded into a six-member family andOrNVorf47-likehas expanded into a three-member family. Sequence analysis indicated all of these genes retain essential motifs present in nudivirus homologs, while transmission electron microscopy (TEM) studies characterized the timing of VLP formation during the wasp pupal stage. RNA interference (RNAi) assays identifiedOrNVorf18-like,OrNVorf61-like,OrNVorf41-like-1,andOrNVorf41-like-2as genes that are required for normal VLP formation. Knockdown ofOrNVorf47-likefamily members did not affect VLP formation but did disable binding of VLPs toV. canescenseggs and protection against encapsulation. Disabled formation of VLPs in response to RNAi knockdown ofOrNVorf18-like,OrNVorf61-like,OrNVorf41-like-1,andOrNVorf41-like-2also resulted in wasp eggs being encapsulated. In contrast, knockdown ofOrNVorf76-likehad no effect on VLP assembly, egg binding, or encapsulation. Altogether, reported results significantly advance our understanding ofV. canescensVLP (VcVLP) formation and function. IMPORTANCEUnderstanding howV. canescenscoopted an alphanudivirus to produce VcVLPs is of interest to the study of virus evolution. Our results show that three nudivirus core genes have essential functions in VcVLP formation, while one is essential for the novel function of binding to wasp eggs and protection from encapsulation, which is the most important immune defense of insects against parasitoids. 

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3. The virulence regulator bvgS controls nutrient-induced filamentation in Bordetella avium

   https://doi.org/10.1128/jb.00030-25  

   Perslow, Niklas G; Meadows-Graves, Serena J; Luallen, Robert J (September 2025, Journal of Bacteriology)

   Kendall, Melissa M (Ed.)

   ABSTRACT Bacteria can change morphology in response to stressors and changes in their environment, including infection of a host. We previously identified the bacterial species,Bordetella atropi, which uses nutrient-induced filamentation as a novel mechanism for cell-to-cell spreading in the intestinal epithelial cells of a nematode host. To further investigate the conservation of nutrient-induced filamentation in Bordetellae, we utilized the turkey-infecting speciesBordetella avium,which filamentsin vitrowhen switched from a standard growth media to an enriched media. We conducted a selection-based filamentation screen withB. aviumand isolated two independent non-filamentous mutants that failed to filament in highly enriched media. These mutants contained different alleles inbvgS,the sensor in the two-component master virulence regulator (BvgAS) conserved across theBordetellagenus. To investigate the role ofbvgSin nutrient-induced filamentation, we conducted transcriptomics and found that our allele ofbvgSresulted in loss of responsiveness to highly enriched media, especially in genes related to nutrient uptake and metabolism. The most dysregulated gene in thebvgSmutant encoded for succinyl-CoA:acetate CoA-transferase, and we were able to regulate filamentation with exogenous metabolites up and downstream of this enzyme. These data suggest thatbvgSregulates nutrient-induced filamentation by controlling metabolic capacity. Overall, we found that the virulence regulatorbvgScan control nutrient-induced filamentation inB. avium,suggesting there may be conservation in Bordetellae for utilizing this morphological change as a virulence phenotype.IMPORTANCEBordetella aviumis the causative agent of bordetellosis, an infectious disease affecting the respiratory system of birds, significantly increasing morbidity in poultry, ultimately leading to economic losses. It is long known that the pathogenesis ofB. aviumis governed by the two-component master virulence regulator, BvgAS. However, this regulon has never before been associated with nutrient-induced filamentation. In this study, we identify BvgS to be regulating nutrient-induced filamentation. We also report the first transcriptomics analysis of filamentousB. avium, showing the enzyme succinyl-CoA:acetate CoA-transferase may be involved in a metabolic shift in enriched nutrient conditions leading to filamentation. Our results suggest that virulence inB. aviumis a dynamic relationship, affected by nutrient availability, rather than a simple binary decision. 

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4. Discrimination and Cardiovascular Health in Black Americans: Exploring Inflammation as a Mechanism and Perceived Control as a Protective Factor

   https://doi.org/10.1097/PSY.0000000000001300  

   Merritt, Carrington C; Muscatell, Keely A (April 2024, Psychosomatic Medicine)

   ABSTRACT ObjectiveInflammation may be an integral physiological mechanism through which discrimination impacts cardiovascular health and contributes to racial health disparities. Limited research has examined psychosocial factors that protect against the negative effects of discrimination on inflammation. Perceived control is a promising possible protective factor, given that it has been shown to moderate the relationship between other psychosocial stressors and physiological outcomes. This study thus tested whether systemic inflammation mediated the link between discrimination and cardiovascular health and whether perceived control moderated this relationship. MethodsData for this project included 347 non-Hispanic/Latinx Black adults (mean [standard deviation] age = 51.64 [11.24] years; 33% female) taken from the Midlife in the United States study. Perceived control and daily discrimination were assessed via self-report, and inflammation was measured via circulating levels of C-reactive protein (CRP), interleukin-6 (IL-6), fibrinogen, and tumor necrosis factor α. Cardiovascular health was measured by morbidity of cardiovascular conditions: heart disease, hypertension, and/or stroke. ResultsCRP (indirect effect:b =0.004, 95% confidence interval [CI] = 0.001–0.007) and fibrinogen (indirect effect:b =0.002, 95% CI = 0.0003–0.005) mediated the link between discrimination and cardiovascular conditions. Perceived control moderated the relationship between discrimination and CRP (F(1, 293) = 4.58, ΔR²= 0.013,b= −0.02, SE = 0.01,p= .033). CRP mediated the link between discrimination and cardiovascular conditions only for those who reported low levels of perceived control (Index = −0.003, 95% CI = −0.007 to −0.0001). ConclusionFindings provide empirical evidence of inflammation as a mechanism linking discrimination to cardiovascular conditions among Black Americans. Additionally, perceived control may be protective. Findings could suggest beliefs about control as a potential intervention target to help reduce the negative effects of discrimination on cardiovascular health among Black Americans. 

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5. Opposing action of photosystem II assembly factors RBD1 and HCF136 underlies light-regulated psbA translation in plant chloroplasts

   https://doi.org/10.1073/pnas.2423694122  

   Rojas, Margarita; Williams-Carrier, Rosalind; Chotewutmontri, Prakitchai; Belcher, Susan; Boyce, Emily; Barkan, Alice (August 2025, Proceedings of the National Academy of Sciences)

   The D1 subunit of photosystem II (PSII) is subject to light-induced damage. In plants, D1 photodamage activates translation of chloroplastpsbAmRNA encoding D1, providing D1 for PSII repair. Three D1 assembly factors have been implicated in the regulatory mechanism: HCF244 and RBD1 activatepsbAtranslation, whereas HCF136 repressespsbAtranslation in the dark. To clarify the regulatory circuit, we analyzedpsbAribosome occupancy in dark-adapted and illuminatedrbd1andrbd1;hcf136double mutants in Arabidopsis and in Zm-hcf244and Zm-hcf244;Zm-hcf136double mutants in maize. The results show that RBD1 is required for light-inducedpsbAtranslation but has only a small effect onpsbAribosome occupancy in the dark. RBD1 is not required forpsbAtranslation when HCF136 is absent, indicating that RBD1 activatespsbAtranslation in the light by inhibiting HCF136’s repressive effect. By contrast, HCF244 is required to recruit ribosomes topsbAmRNA in light, dark, and in the absence of HCF136. We demonstrate further that HCF244 is not required for the translational activator HCF173 to bind thepsbA5’UTR. These results show that RBD1 is central to the perception of the D1 photodamage that triggers D1 synthesis and that it activatespsbAtranslation by relieving repression by an HCF136-dependent assembly intermediate. HCF244 activates downstream of those events without impacting HCF173’s binding topsbAmRNA. The results implicate a feature of nascent D1 that is affected by both HCF136 and RBD1 as the signal that reports D1 photodamage to regulatepsbAtranslation rate as needed for PSII repair. 

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