Iron regulatory proteins 1 and 2 have opposing roles in regulating inflammation in bacterial orchitis
Niraj Ghatpande, Aileen Harrer, Bar Azoulay-Botzer, Noga Guttmann-Raviv, Sudhanshu Bhushan, Andreas Meinhardt, Esther G. Meyron-Holtz
Niraj Ghatpande, Aileen Harrer, Bar Azoulay-Botzer, Noga Guttmann-Raviv, Sudhanshu Bhushan, Andreas Meinhardt, Esther G. Meyron-Holtz
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Research Article Immunology Reproductive biology

Iron regulatory proteins 1 and 2 have opposing roles in regulating inflammation in bacterial orchitis

Abstract

Acute bacterial orchitis (AO) is a prevalent cause of intrascrotal inflammation, often resulting in sub- or infertility. A frequent cause eliciting AO is uropathogenic Escherichia coli (UPEC), a gram negative pathovar, characterized by the expression of various iron acquisition systems to survive in a low-iron environment. On the host side, iron is tightly regulated by iron regulatory proteins 1 and 2 (IRP1 and -2) and these factors are reported to play a role in testicular and immune cell function; however, their precise role remains unclear. Here, we showed in a mouse model of UPEC-induced orchitis that the absence of IRP1 results in less testicular damage and a reduced immune response. Compared with infected wild-type (WT) mice, testes of UPEC-infected Irp1–/– mice showed impaired ERK signaling. Conversely, IRP2 deletion led to a stronger inflammatory response. Notably, differences in immune cell infiltrations were observed among the different genotypes. In contrast with WT and Irp2–/– mice, no increase in monocytes and neutrophils was detected in testes of Irp1–/– mice upon UPEC infection. Interestingly, in Irp1–/– UPEC-infected testes, we observed an increase in a subpopulation of macrophages (F4/80+CD206+) associated with antiinflammatory and wound-healing activities compared with WT. These findings suggest that IRP1 deletion may protect against UPEC-induced inflammation by modulating ERK signaling and dampening the immune response.

Authors

Niraj Ghatpande, Aileen Harrer, Bar Azoulay-Botzer, Noga Guttmann-Raviv, Sudhanshu Bhushan, Andreas Meinhardt, Esther G. Meyron-Holtz

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Figure 1

IRP1 deficiency protects the testis against UPEC-induced inflammation.

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IRP1 deficiency protects the testis against UPEC-induced inflammation. (...
(A) Experimental design illustrating the UPEC-induced orchitis mouse model (created in BioRender.com). WT, Irp1–/–, and Irp2–/– mice were injected with saline or UPEC CFT073 via the vas deferens. Organs were collected 7 days after infection for further analysis by histology, flow cytometry, and quantitative RT-PCR. (B) Histopathological analysis of UPEC-infected WT and Irp2–/– testes revealed impairment of spermatogenesis, including multinucleated cells (black arrowheads). Representative micrographs of H&E-stained testes are shown. Scale bars: 50 μm (top 2 rows) and 20 μm (bottom row) (n = 5–7). SC, Sertoli cells; SPg, spermatogonia; SPcy, spermatocytes; rSP, round spermatids; eSP, elongated spermatids. (C) The scheme illustrates prominent changes such as the presence of multinucleated giant germ cells in the seminiferous epithelium after UPEC infection in comparison with normal/sham conditions (created in BioRender.com). (D) Quantitative RT-PCR analysis demonstrated altered expression levels of key proinflammatory (Tnf, Il-1β, Il-6) and antiinflammatory (Il-10) cytokines in UPEC-infected testes. Relative mRNA levels were normalized to Rplp0 or 18S RNA and further to sham WT (n = 6–15). FC, fold change. Data are presented as mean ± SEM. Statistical significance was determined using 2-way ANOVA with Tukey’s multiple-comparison test. *P < 0.05; **P < 0.01.