Abstract
Iron is a crucial micronutrient for both mammals and their associated pathogens, and extensive literature has shown that Mycobacterium tuberculosis (Mtb) bacilli inhibited from acquiring iron from the host are severely attenuated. In contrast, increased dietary iron concentrations or patients with hemochromatosis have long been associated with a more severe tuberculosis (TB) disease outcome. We have observed that upon macrophage infection, Mtb bacilli strongly promote intracellular iron sequestration, both through increased expression of hepcidin, a key mammalian iron regulatory protein, and downregulation of the iron exporter protein, ferroportin. Heparin is a highly sulfated glycosaminoglycan released by mast cells and basophils at sites of tissue injury. During Mtb infection, heparin alters intracellular trafficking in alveolar epithelial cells and decreases extrapulmonary dissemination but recently, heparin also has been reported to inhibit hepcidin expression in hepatocytes, decreasing intracellular iron availability. In this report, we demonstrate that heparin significantly reduces hepcidin expression in macrophages infected with Mtb bacilli. Heparin-treated macrophages have higher ferroportin expression compared to untreated macrophages, promoting iron export and decreasing iron availability to intracellular bacilli. Thus, here we describe a novel immunomodulatory effect and potential therapeutic role for heparin against mycobacterial infection in human macrophages.
Highlights
Mycobacterium tuberculosis, the causative agent of tuberculosis (TB), infects nearly 10 million people annually and causes approximately 1.5 million fatalities globally
Mycobacterium bovis BCG is an avirulent vaccine strain frequently used as a BSL2 model to study Mycobacterium tuberculosis (Mtb) replication in macrophages
Bacterial uptake was similar between the heparin-treated and untreated macrophages (p = 0.792); by 24 hours post infection, heparin-treated macrophages showed a significant 50.6% (±6.97) reduction in intracellular bacterial numbers when compared to untreated controls (p = 0.006, Fig. 1A and B)
Summary
Mycobacterium tuberculosis, the causative agent of tuberculosis (TB), infects nearly 10 million people annually and causes approximately 1.5 million fatalities globally. Iron dysregulation has been strongly associated with worsened disease outcomes in Mtb infected patients[8], while effective iron export in macrophages decreased intracellular mycobacterial replication[9]. Heparin and other glycosaminoglycans can decrease the Mtb bacterial burden in epithelial cells, but its impact in intracellular replication in macrophages has not yet been investigated. Most studies with heparin have been performed on hepatocytes, where the glycosaminoglycan has been shown to inhibit hepcidin expression, thereby decreasing intracellular iron levels in this iron regulatory cell type[22,23,24,25]. We have observed that upon macrophage infection, Mtb bacilli strongly promote intracellular iron sequestration both through induction of hepcidin and direct down-regulation of the iron exporter ferroportin (unpublished data)
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