AUTHOR=Powell Daniel A. , Frelinger Jeffrey A. 

TITLE=Efficacy of Resistance to Francisella Imparted by ITY/NRAMP/SLC11A1 Depends on Route of Infection

JOURNAL=Frontiers in Immunology

VOLUME=8

YEAR=2017

URL=https://www.frontiersin.org/journals/immunology/articles/10.3389/fimmu.2017.00206

DOI=10.3389/fimmu.2017.00206

ISSN=1664-3224

ABSTRACT=<p>Natural resistance-associated macrophage protein (NRAMP) encoded by the <italic>Slc11a1</italic> gene is a membrane-associated transporter of divalent metal ions. Murine <italic>Slc11a1</italic> has two known alleles, a functional <italic>Slc11a1</italic><sup>Gly169</sup>, which is found in DBA2/J, NOD/LtJ, and 129p3/J and related mouse strains, and a non-functional <italic>Slc11a1</italic><sup>Asp169</sup>, that is found in C56Bl/6J (B6) and BALB/cJ mice. B6 mice congenic for <italic>Slc11a1</italic><sup>Gly169</sup> (B6-<italic>Slc11a1<sup>G169</sup></italic>) are markedly resistant to the intracellular pathogens <italic>Salmonella, Leishmania</italic>, and <italic>Mycobacterium tuberculosis</italic>. We examined the host cell response and replication of <italic>Francisella</italic> in B6-<italic>Slc11a1<sup>G169</sup></italic> mice. Bone marrow-derived macrophages from either B6-<italic>Slc11a1<sup>G169</sup></italic> or B6 mice were both effectively invaded by <italic>Francisella</italic> live vaccine strain (LVS). However, at 16 hours post-infection (hpi), the number of LVS bacteria recovered from B6 macrophages had increased roughly 100-fold, while in B6-<italic>Slc11a1<sup>G169</sup></italic> mice the number decreased 10-fold. When the mice were challenged intranasally (i.n.) B6 mice lost significant amounts (~15%) of weight, where as B6-<italic>Slc11a1<sup>G169</sup></italic> mice lost no weight. Three days after infection in B6-<italic>Slc11a1<sup>G169</sup></italic> mice, we failed to recover viable <italic>Francisella</italic> from the lungs, livers, or spleens. By contrast, B6 mice had bacterial burdens approaching 1 × 10<sup>6</sup> CFU/organ in all three organs. To further examine the degree of resistance imparted by <italic>Slc11a1</italic><sup>Gly169</sup> expression, we challenged mice deficient in TLR2, TLR4, and TLR9, but expressing the functional Slc11a1 (B6-<italic>Slc11a1<sup>G169</sup>Tlr2/4/9<sup>−/−</sup></italic>). Surprisingly, B6-<italic>Slc11a1<sup>G169</sup>Tlr2/4/9<sup>−/−</sup></italic> mice had no notable weight loss. Eighty percent of B6-<italic>Slc11a1<sup>G169</sup>Tlr2/4/9<sup>−</sup></italic><sup>/</sup><italic><sup>−</sup></italic> mice yielded no detectable <italic>Francisella</italic> in any organ tested. Additionally, <italic>Slc11a1</italic><sup>G169</sup> produced little detectable cytokine either in the lung or serum compared to B6 mice. Mice expressing <italic>Slc11a1</italic><sup>Gly169</sup> survived even high doses (~80 LD<sub>50</sub>) of LVS inoculation. These data taken together serve to highlight that functional <italic>Slc11a1</italic><sup>Gly169</sup> can compensate the lack of TLR2/4/9. Thus <italic>Slc11a1</italic> is a critical player in murine resistance to pulmonary <italic>Francisella</italic> infection, but not footpad infection.</p>