Ferritinophagy drives uropathogenic<i>Escherichia coli</i>persistence in bladder epithelial cells

Bauckman, Kyle; Mysorekar, Indira U.

doi:10.1080/15548627.2016.1160176

Cited by 87 publications

(86 citation statements)

References 67 publications

(86 reference statements)

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“…BeWo cells were prepared for TEM analysis as described previously (39). TEM sections were imaged using a JEOL 1200 EX transmission electron microscope (JEOL USA Inc.).…”

Section: Methodsmentioning

confidence: 99%

ATG16L1 governs placental infection risk and preterm birth in mice and women

Cao¹,

Macones²,

Mysorekar

2016

JCI Insight

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The placenta is a barrier against maternal-fetal transmission of pathogens. Placental infections can cause several adverse pregnancy outcomes, including preterm birth (PTB). Yet, we have limited knowledge regarding the mechanisms the placenta uses to control infections. Here, we show that autophagy, a cellular recycling pathway important for host defense against pathogens, and the autophagy gene Atg16L1 play a key role in placental defense and are negatively associated with PTB in pregnant women. First, we demonstrate that placentas from women who delivered preterm exhibit reduced autophagy activity and are associated with higher infection indicators. Second, we identify the cellular location of the autophagy activity as being in syncytial trophoblasts. Third, we demonstrate that higher levels of autophagy and ATG16L1 in human trophoblasts were associated with increased resistance to infection. Accordingly, loss of autophagy or ATG16L1 impaired trophoblast antibacterial defenses. Fourth, we show that Atg16l1-deficient mice gave birth prematurely upon an inflammatory stimulus and their placentas were significantly less able to withstand infection. Finally, global induction of autophagy in both mouse placentas and human trophoblasts increased infection resistance. Our study has significant implications for understanding the etiology of placental infections and prematurity and developing strategies to mitigate placental infection–induced PTB.

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“…BeWo cells were prepared for TEM analysis as described previously (39). TEM sections were imaged using a JEOL 1200 EX transmission electron microscope (JEOL USA Inc.).…”

Section: Methodsmentioning

confidence: 99%

ATG16L1 governs placental infection risk and preterm birth in mice and women

Cao¹,

Macones²,

Mysorekar

2016

JCI Insight

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“…Siderophores enable bacteria to solubilize iron from their environment to promote their cellular proliferation (Ellermann and Arthur, 2016). For example, uropathogenic E. coli (UPEC) bacteria depend on iron for growth and the ferritinophagy pathway was recently demonstrated to contribute to its increased survival (Bauckman and Mysorekar, 2016). It is suggested that epigenetic changes (i.e., methylation of CDKN2A) in the host uroepithelial cells due to UPEC infection may lead to bladder cancer (Tolg et al, 2011).…”

Section: Bacteria Iron and Cancermentioning

confidence: 99%

Iron overload and altered iron metabolism in ovarian cancer

Rockfield

Raffel

Mehta

et al. 2017

Biological Chemistry

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Iron is an essential element required for many processes within the cell. Dysregulation in iron homeostasis due to iron overload is detrimental. This nutrient is postulated to contribute to the initiation of cancer; however, the mechanisms by which this occurs remain unclear. Defining how iron promotes the development of ovarian cancers from precursor lesions is essential for developing novel therapeutic strategies. In this review, we discuss (1) how iron overload conditions may initiate ovarian cancer development, (2) dysregulated iron metabolism in cancers, (3) the interplay between bacteria, iron, and cancer, and (4) chemotherapeutic strategies targeting iron metabolism in cancer patients.

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“…In addition, UPEC had no significant effect on pMac survival at these time‐points (data not shown). We have previously shown that iron alone promotes UPEC growth in minimal media and in bladder epithelial cells ; thus, the UPEC growth restriction observed in macrophages is attributable to macrophage function.…”

Section: Resultsmentioning

confidence: 97%

“…This is especially relevant in vivo, since macrophages may be exposed to different concentrations of iron over the course of an infection [4]. Interestingly, the host epithelial-iron interactions have the opposite effect on bacterial survival, as our previous work has shown that UPEC is able to access iron within bladder epithelial cells via ferritinophagy, thereby promoting UPEC survival and growth within these cells [19]. We suggest that in the bladder mucosa, UPEC survival and growth within the bladder epithelium may be mitigated by the bladder macrophagic anti-microbial iron regulation response, consistent with previous data showing increased bladder macrophage counts up to 48 hpi with UPEC [40].…”

Section: Discussionmentioning

confidence: 99%

Macrophagic control of the response to uropathogenic E. coli infection by regulation of iron retention in an IL‐6‐dependent manner

Owusu‐Boaitey

Bauckman

Zhang

et al. 2016

Immunity Inflam & Disease

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IntroductionUropathogenic Escherichia coli (UPEC), the causative agent of over 85% of urinary tract infections (UTIs), elaborate a number of siderophores to chelate iron from the host. On the other hand, the host immune imperative is to limit the availability of iron to the bacteria. Little is known regarding the mechanisms underlying this host‐iron‐UPEC interaction. Our objective was to determine whether macrophages, in response to UPEC infection, retain extracellular siderophore‐bound and free iron, thus limiting the ability of UPEC to access iron.MethodsQuantitative PCR, immunoblotting analysis, and gene expression analysis of wild type and IL‐6‐deficient macrophages was performed.ResultsWe found that (1) macrophages upon UPEC infection increased expression of lipocalin 2, a siderophore‐binding molecule, of Dmt1, a molecule that facilitates macrophage uptake of free iron, and of the intracellular iron cargo molecule ferritin, and decreased expression of the iron exporter ferroportin; (2) bladder macrophages regulate expression of genes involved in iron retention upon UPEC infection; (3) IL‐6, a cytokine known to play an important role in regulating host iron homeostasis as well as host defense to UPEC, regulates this process, in part by promoting production of lipocalin 2; and finally, (4) inhibition of IL‐6 signaling genetically and by neutralizing antibodies against the IL‐6 receptor, promoted intra‐macrophagic UPEC growth in the presence of excess iron.ConclusionsTogether, our study suggests that macrophages retain siderophore‐bound and free iron in response to UPEC and IL‐6 signaling is necessary for macrophages to limit the growth of UPEC in the presence of excess iron. IL‐6 signaling and iron regulation is one mechanism by which macrophages may mediate UPEC clearance.

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Ferritinophagy drives uropathogenicEscherichia colipersistence in bladder epithelial cells

Cited by 87 publications

References 67 publications

ATG16L1 governs placental infection risk and preterm birth in mice and women

ATG16L1 governs placental infection risk and preterm birth in mice and women

Iron overload and altered iron metabolism in ovarian cancer

Macrophagic control of the response to uropathogenic E. coli infection by regulation of iron retention in an IL‐6‐dependent manner

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