Bicarbonate correction of ketoacidosis alters host-pathogen interactions and alleviates mucormycosis
Teclegiorgis Gebremariam, … , Scott G. Filler, Ashraf S. Ibrahim
Teclegiorgis Gebremariam, … , Scott G. Filler, Ashraf S. Ibrahim
Published May 9, 2016
Citation Information: J Clin Invest. 2016;126(6):2280-2294. https://doi.org/10.1172/JCI82744.
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Research Article Infectious disease

Bicarbonate correction of ketoacidosis alters host-pathogen interactions and alleviates mucormycosis

Abstract

Patients with diabetic ketoacidosis (DKA) are uniquely predisposed to mucormycosis, an angioinvasive fungal infection with high mortality. Previously, we demonstrated that Rhizopus invades the endothelium via binding of fungal CotH proteins to the host receptor GRP78. Here, we report that surface expression of GRP78 is increased in endothelial cells exposed to physiological concentrations of β-hydroxy butyrate (BHB), glucose, and iron that are similar to those found in DKA patients. Additionally, expression of R. oryzae CotH was increased within hours of incubation with DKA-associated concentrations of BHB, glucose, and iron, augmenting the ability of R. oryzae to invade and subsequently damage endothelial cells in vitro. BHB exposure also increased fungal growth and attenuated R. oryzae neutrophil-mediated damage. Further, mice given BHB developed clinical acidosis and became extremely susceptible to mucormycosis, but not aspergillosis, while sodium bicarbonate reversed this susceptibility. BHB-related acidosis exerted a direct effect on both GRP78 and CotH expression, an effect not seen with lactic acidosis. However, BHB also indirectly compromised the ability of transferrin to chelate iron, as iron chelation combined with sodium bicarbonate completely protected endothelial cells from Rhizopus-mediated invasion and damage. Our results dissect the pathogenesis of mucormycosis during ketoacidosis and reinforce the importance of careful metabolic control of the acidosis to prevent and manage this infection.

Authors

Teclegiorgis Gebremariam, Lin Lin, Mingfu Liu, Dimitrios P. Kontoyiannis, Samuel French, John E. Edwards Jr., Scott G. Filler, Ashraf S. Ibrahim

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Figure 8

NaHCO3 bicarbonate protects endothelial cells from BHB-induced R. oryzae–enhanced invasion and subsequent injury.

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NaHCO3 bicarbonate protects endothelial cells from BHB-induced R. oryzae...
(A) Endothelial cell GRP78 surface expression was assessed in the presence of BHB with or without NaHCO3 after 5 hours of incubation by flow cytometry using anti-GRP78 antibodies. (B and C) Endothelial cells and R. oryzae were exposed separately to BHB, BHB + NaHCO3, BHB + phenanthroline, or BHB + NaHCO3 + phenanthroline before testing of adherence to (cell-association) and invasion of (endocytosis) endothelial cells by R. oryzae (B), or R. oryzae–induced endothelial cell injury (C). (B) The endocytosis data were derived from more than 600 fungal cells interacting with approximately 200 endothelial cells in each group per experiment. (C) Damage assay was conducted for 4 hours in 96-well plates. *P < 0.03 vs. no treatment endocytosis or no treatment in the injury assay; #P < 0.05 vs. BHB endocytosis; P < 0.05 vs. endocytosis of all other treatment or no treatment or BHB in the injury assay. Statistical analysis was carried out using Wilcoxon rank sum test. n ≥ 6 slides per group from 2 independent experiments for endocytosis, and n = 10–12 wells per group from 2 independent experiments for the damage assay. Data are expressed as median ± interquartile range.