Multidrug-resistant (MDR) bacterial pneumonia can induce dysregulated pulmonary and systemic inflammation leading to morbidity and mortality. Antibiotics to treat MDR pathogens do not function to modulate the extent and intensity of inflammation and can have serious side effects. Here we evaluate the efficacy of two human cysteine proteinase inhibitors, cystatin 9 (CST9) and cystatin C (CSTC), as a novel immunotherapeutic treatment to combat MDR New Delhi metallo-beta-lactamase-1 (NDM-1)-producing Klebsiella pneumoniae. Our results showed that mice infected intranasally (i.n.) with a 90% lethal dose (LD90) challenge of NDM-1 K. pneumoniae and then treated with the combination of human recombinant CST9 (rCST9) and rCSTC (rCSTs; 50 pg of each i.n. at 1 h postinfection [p.i.] and/or 500 pg of each intraperitoneally [i.p.] at 3 days p.i.) had significantly improved survival compared to that of infected mice alone or infected mice treated with individual rCSTs (P < 0.05). Results showed that both of our optimal rCST treatment regimens modulated pulmonary and systemic proinflammatory cytokine secretion in the serum, lungs, liver, and spleen in infected mice (P < 0.05). Treatment also significantly decreased the bacterial burden (P < 0.05) while preserving lung integrity, with reduced inflammatory cell accumulation compared to that in infected mice. Further, rCST treatment regimens reduced lipid peroxidation and cell apoptosis in the lungs of infected mice. Additionally, in vitro studies showed that rCSTs (50 or 500 pg of each) directly decreased the viability of NDM-1 K. pneumoniae. In conclusion, the data showed that rCST9/rCSTC worked synergistically to modulate host inflammation against MDR NDM-1 K. pneumoniae pneumonia, which significantly improved survival. Therefore, rCST9/rCSTC is a promising therapeutic candidate for the treatment of bacterial pneumonia.
The study of HIV infection and pathogenicity in physical reservoirs requires a biologically relevant model which resembles the human immune system and physiology. The human immune system (HIS) mouse is well established as a model of HIV, but defects in immune tissue reconstitution remain a challenge for examining pathology in tissues. Herein we show that exogenous injection of the human cytokine FLT-3L into the HSC cord blood HIS mouse model significantly expanded the total area of axial lymph nodes and the circulating percentage of human T cells, thus enabling us to visualize and quantify HIV infectivity in the secondary lymphoid tissues of the spleen and axial node. Further, we detected cell death and T cell depletion in tissues, consistent with HIV pathogenesis. Treatment with the caspase-1 inhibitor VX-765 significantly decreased viral load as measured by gag qPCR, and apoptosis as measured by TUNEL assay, in the spleen. A significant restoration of CD4+ T cells in the spleen due to VX-765 treatment was observed via flow cytometry. In situ hybridization further demonstrated a significant decrease in viral RNA in both the spleen and axial lymph nodes. Transcriptomic analysis further revealed an upregulation in host HIV restriction factors such as APOBR, SAMHD1 and APOBEC3A as a result of VX-765 administration. These findings demonstrate FLT-3L as a mechanism whereby the human immune environment in HIS mice can be enhanced to support investigations of HIV pathogenesis and immune outcomes in tissue compartments. Preliminary results indicate that targeting inflammasome pathways with VX-765 in HIS mice treated with FLT-3L, and infected with HIV, preserved T cell populations and decreased viral load.
Supported by R01 A1HL129881, NIH/NHLBI
We have identified recombinant human cystatins 9 (rCST9) and C (rCSTC) as a combination immunotherapeutic treatment against multidrug-resistant (MDR) New Delhi metallo-β-lactamase-1 (NDM-1)-producing Klebsiella pneumoniae. We evaluated the lasting protection of rCST9/rCSTC treatment against MDR NDM-1 K. pneumoniae pneumonia.
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