Previous work has implicated the immune system in potentiating salt-sensitive (SS) hypertension and kidney damage in the Dahl SS rat model. The innate immunity protein Cluster of Differentiation 14 (CD14), normally involved in bacterial responses of macrophages, has been associated with hypertension in humans. The present study tests the hypothesis that CD14 influences the extent of high-salt diet induced renal damage and hypertension in the Dahl SS rat, by modulating activation of the innate immune system. CD14 was mutated in the Dahl SS background using CRISPR-Cas9 technology, leading to the loss of CD14 protein in peritoneal macrophages (pMacs) as evidenced by mass spectrometry-based parallel reaction monitoring. pMac stimulation in vitro demonstrated altered IL-1β production in CD14-/- animals. To monitor SS phenotypes in vivo , male and female CD14+/+ and CD14-/- animals maintained on a 0.4% NaCl diet underwent carotid catheter telemetry implantation at 7 weeks of age (n=12/14). After recovery and baseline recordings, animals were switched to a 4.0% NaCl diet for 21 days. There was no significant difference in the SS increase in blood pressure or albuminuria between genotypes of males. However, female CD14-/- animals demonstrated exacerbated salt-sensitivity of blood pressure (+45mmHg) compared to wild types (+31mmHg). To determine what may mediate this difference, immune cells were isolated from the kidneys of these animals. Accordingly, males showed no difference in immune cell infiltration; whereas, female CD14-/- animals showed an elevation in the infiltration of CD11b/c+ macrophages. To determine whether knockout of CD14 in immune cells specifically was responsible for this phenotypic difference, a lethal dose of total body irradiation (11Gy) of CD14+/+ recipient animals followed by either CD14-/- or CD14+/+ bone marrow transfer experiment was done in female animals (n=6/7). Remarkably, even though all host tissue cells were wildtype, transfer of CD14-/- bone marrow recapitulated the exacerbated SS phenotypes, including increased renal infiltration of macrophages. Together, these data demonstrate that CD14 signaling in hematopoietic cells of females modulates the full extent of the immune response and blunts SS hypertension.