Lactobacilli are commensal Gram-positive bacteria that widely pop

Lactobacilli are commensal Gram-positive bacteria that widely populate the healthy female vaginal mucosa [21, 22, 40, 41]. Several Lactobacillus strains have been implicated by epidemiologic and/or experimental evidence in the maintenance of a homeostatic infection-free microenvironment most notably due to the impact of the bacteria’s lactic acid and H2O2 production in generating an adverse environment for HIV and other STDs. [21, 40, 42–44]. These properties may contribute

to the reduction of viral particles at the site of infection [13, 45]. In contrast, a reduction in the number of Lactobacillus in the vaginal microbiota has been https://www.selleckchem.com/products/acalabrutinib.html associated with the acquisition of bacterial vaginosis (BV) [42, 45–47]. The presence of BV is correlated with an increased risk of acquiring herpes simplex virus type 2 [48], HIV and other STDs [46, 49]. In turn, co-infection with sexually transmitted pathogens is associated with an increased risk of acquiring and transmitting Selleckchem ABT-737 HIV [50, 51]. Naturally occurring lactobacilli demonstrate an inverse relationship with HIV infectivity

[44, 45]. Sha et al. found an inverse ratio between indigenous Lactobacillus counts and HIV RNA detected in cervical vaginal lavage at nearly significant selleck products levels [46]. In another study, L. jensenii demonstrated a reduction in HIV infection by 23% in-vitro[26]. Our finding that L. jensenii can induce NF-κB activation and at the same time Glycogen branching enzyme maintain low levels of inflammation-associated proteins has important implications for its potential use as a vaginal probiotic or biotherapeutic. NF-κB is a major transcription factor that plays a key role in inflammatory disease and upregulates a myriad of inflammation-associated genes including those studied here [52]. At the same time NF-κB participates in its own negative feedback loop promoting the resolution of inflammation in-vivo[53]. Thus, the net effect of NF-κB activation depends on the cell and tissue context, the interplay of a

number of intra- and extra-cellular factors, and the nature of the activating signal. It has been previously shown that some lactobacillus species (L. crispatus and L. acidophilus) can cause NF-κB activation and yet maintain low levels of IL-8 and RANTES [20]. Another study showed that L. jensenii can suppress IL-8 induced by TLR ligands [54]. Interestingly, a non-vaginal lactobacillus species (L. kefiranofaciens) induced production of MIP-3α [55] and other vaginal bacteria, associated with bacterial vaginosis e.g. P. bivia and A. vaginae induced simultaneous NF-κB activation and upregulation of inflammatory proteins in contrast to vaginal L. crispatus and L. acidophilus, which maintained low levels of proinflammatory proteins in the vaginal colonization context [20].

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