CFTR modulator drug desensitization: Preserving the hope of long term improvement.

The development of modulator therapy has, for the first time, allowed direct targeting of the underlying cause of cystic fibrosis (CF), the cystic fibrosis transmembrane conductance regulator (CFTR). Patients treated with CFTR modulators have improvement in lung function and decreased rates of pulmonary exacerbations. In 2019, elexacaftor/tezacaftor/ivacaftor was approved for use in the United States, opening these therapies to 90% of patients with CF. Intolerable adverse drug reactions to CFTR modulators results in discontinuation of therapy, which can be devastating to our patients. We describe our approach to two cases, not previously reported, of rash to elexacaftor/tezacaftor/ivacaftor in patients with a previous history of cutaneous adverse reactions to dual modulator therapy that had been addressed by desensitization. Case 1 was able to tolerate elexacaftor/tezacaftor/ivacaftor after desensitization to the triple combination therapy, while in Case 2 tolerance was obtained by treating through the reaction. The loss of tolerance in these patients was unexpected, and may be a common finding in patients with history of cutaneous adverse reactions to these drugs. We hope reporting our experience, including our desensitization protocol, may benefit CF patients for whom these drug reactions may be limiting access to powerful disease altering therapies.

Incidence of nephrotoxicity with prolonged aminoglycoside exposure in patients with cystic fibrosis.

Cystic fibrosis (CF) patients, with Pseudomonas aeruginosa infection, often require repeated aminoglycoside courses for the management of acute pulmonary exacerbations (APEs). Acute kidney injury (AKI) due to aminoglycosides has been reported; little data exist regarding long-term nephrotoxicity with repeated exposure. The objective of this study was to describe the incidence of acute and chronic nephrotoxicity due to cumulative intravenous (IV) aminoglycoside exposure. This is a retrospective, observational study of pediatric and adult CF patients admitted to an academic medical center between January 1, 2006 and October 1, 2018 for APE management. Patients were eligible for inclusion if they received at least five courses of an IV aminoglycoside for at least 7 days each. Cumulative weight-based aminoglycoside dose was reported in milligrams per kilogram. For each admission, baseline and highest serum creatinine were collected to assess the incidence of AKI. The baseline and final estimated glomerular filtration rate (eGFR) were calculated to assess long-term effects on renal function. Sixty-six patients, representing greater than 700 courses, were included in the final analysis. The median cumulative weight-based aminoglycoside dose was 1183 mg/kg of tobramycin or tobramycin equivalent. Twenty percent of courses resulted in AKI; 86% were Stage 1. A repeated measure multivariate model showed colistin, piperacillin/tazobactam, vancomycin, and age were significant AKI risk factors. There was no correlation between cumulative aminoglycoside dose and change in eGFR. AKI from IV aminoglycoside exposure occurred in 20% of courses. Cumulative exposure to IV aminoglycosides in APE management was not correlated with long-term renal dysfunction.

Human IgE mAbs define variability in commercial Aspergillus extract allergen composition.

Sensitization to Aspergillus species is associated with allergic respiratory diseases. Allergen immunotherapy with nonstandardized Aspergillus extracts is commonly used as therapy in these patients. Unfortunately, no method exists to measure the relevant allergen protein content in diagnostic and therapeutic extracts. Thus, there is a critical need for Aspergillus extract standardization. We hypothesized that development of Aspergillus-specific human IgE mAbs would allow for the characterization of the relevant human allergenic epitopes among currently available commercial Aspergillus fumigatus extracts. Patients with allergic bronchopulmonary mycosis were recruited from Vanderbilt University Medical Center. IgE antibody-secreting B cells were grown and immortalized using human hybridoma techniques first described here. Twenty-six human Aspergillus-reactive IgE mAbs were used as capture and detection reagents to characterize the Aspergillus allergen content of commercial extracts. We found extreme variability in the specificity and quantity of their protein targets. Just 4 mAbs reacted with all available extracts, and only 1 of 4 extracts contained the major allergen Asp f 1. This degree of variability will almost certainly affect the efficacy of these reagents when used in diagnosis and treatment. Human IgE mAbs represent an innovative tool for the evaluation of relevant human allergenic epitopes, which may assist in future development and long-term standardization of mold extracts.

The actin cytoskeleton inhibits pore expansion during PIV5 fusion protein-promoted cell-cell fusion.

Paramyxovirus fusion (F) proteins promote both virus-cell fusion, required for viral entry, and cell-cell fusion, resulting in syncytia formation. We used the F-actin stabilizing drug, jasplakinolide, and the G-actin sequestrant, latrunculin A, to examine the role of actin dynamics in cell-cell fusion mediated by the parainfluenza virus 5 (PIV5) F protein. Jasplakinolide treatment caused a dose-dependent increase in cell-cell fusion as measured by both syncytia and reporter gene assays, and latrunculin A treatment also resulted in fusion stimulation. Treatment with jasplakinolide or latrunculin A partially rescued a fusion pore opening defect caused by deletion of the PIV5 F protein cytoplasmic tail, but these drugs had no effect on fusion inhibited at earlier stages by either temperature arrest or by a PIV5 heptad repeat peptide. These data suggest that the cortical actin cytoskeleton is an important regulator of fusion pore enlargement, an energetically costly stage of viral fusion protein-mediated membrane merger.

Rho GTPase activity modulates paramyxovirus fusion protein-mediated cell-cell fusion.

The paramyxovirus fusion protein (F) promotes fusion of the viral envelope with the plasma membrane of target cells as well as cell-cell fusion. The plasma membrane is closely associated with the actin cytoskeleton, but the role of actin dynamics in paramyxovirus F-mediated membrane fusion is unclear. We examined cell-cell fusion promoted by two different paramyxovirus F proteins in three cell types in the presence of constitutively active Rho family GTPases, major cellular coordinators of actin dynamics. Reporter gene and syncytia assays demonstrated that expression of either Rac1(V12) or Cdc42(V12) could increase cell-cell fusion promoted by the Hendra or SV5 glycoproteins, though the effect was dependent on the cell type expressing the viral glycoproteins. In contrast, RhoA(L63) decreased cell-cell fusion promoted by Hendra glycoproteins but had little affect on SV5 F-mediated fusion. Also, data suggested that GTPase activation in the viral glycoprotein-containing cell was primarily responsible for changes in fusion. Additionally, we found that activated Cdc42 promoted nuclear rearrangement in syncytia.