Impact of Intravenous Fat Emulsion Choice on Candida Biofilm, Hyphal Growth, and Catheter-Related Bloodstream Infections in Pediatric Patients

Background Use of mixed-oil (MO) intravenous fat emulsion (IFE) was shown to inhibit Candida albicans biofilm formation and overall rate of catheter-related bloodstream infections (CR-BSIs) compared with soybean-oil (SO) IFE). We aimed to delineate this inhibitory mechanism and impact of IFE choice on distribution of fungal CR-BSIs.Methods Transcriptional profiling was conducted on C. albicans grown in SO-IFE, MO-IFE, or SO-IFE with capric acid. Overexpression strains of shared down-regulated genes were constructed using a tetracycline-off system to assess hypha and biofilm formation in IFEs. A 5-year retrospective multicenter cohort study was performed to assess differences in CR-BSIs caused by Candida species based on the IFE formulation received in pediatric patients.Results Genes significantly down-regulated in MO-IFE and SO-IFE with capric acid included CDC11, HGC1, and UME6. Overexpression of HGC1 or UME6 enabled filamentation in capric acid and MO-IFE. Interestingly, only overexpression of UME6 was sufficient to rescue biofilm growth in MO-IFE. MO-IFE administration was associated with a higher proportion of non-albicans Candida versus C. albicans CR-BSIs (42% vs 33%; odds ratio, 1.22 [95% confidence interval, .46-3.26]).Conclusions MO-IFE affects C. albicans biofilm formation and hyphal growth via a UME6-dependent mechanism. A numerical but not statistically significant difference in distribution of Candida spp. among CR-BSIs was observed. Intravenous fat emulsion (IFE) receipt increases the risk of fungal catheter-related bloodstream infection (CR-BSI). We show that capric acid-containing mixed-oil IFE impairs Candida albicans filamentation and biofilm via UME6-HGC1-CDC11 axis repression and may be associated with reduced C. albicans CR-BSI. Delivery of carbohydrates, amino acids, and lipids via intravenous catheters is necessary for some patients to supply daily caloric needs. These nutrient-dense parenteral solutions can promote microbial biofilm growth on the catheter surface, which may seed subsequent catheter-related bloodstream infection (CR-BSI). In fact, receipt of parenteral nutrition is an established risk factor for CR-BSI caused by the polymorphic fungal pathogen Candida albicans. New intravenous fat emulsions (IFEs) have gained market share and IFEs containing capric acid (mixed-oil [MO] IFE) compared with those without (soybean-oil [SO] IFE) impair the C. albicans yeast-to-hypha switch-a trait strongly associated with pathogenicity and biofilm formation. In this study, we found that MO-IFE and capric acid reduced expression of a transcriptional regulator involved in hyphal extension (UME6) and down-regulated genes involved in cell partitioning (HGC1). Overexpression of these genes enabled hyphal growth in MO-IFE. Secondly, we sought to determine whether the type of IFE administered was associated with the clinical incidence of CR-BSIs caused by C. albicans or other common non-albicans Candida species. There was a nonsignificant numerical reduction in C. albicans infections in patients administered MO-IFE compared with SO-IFE. Collectively, this work shows that IFEs differentially affect Candida biology with potential infectious consequences for the patient.