HW conceived the study, participated in its design, performed the

HW conceived the study, participated in its design, performed the analysis and interpretation of the data, and participated in writing the manuscript. JL participated in conceiving the study, its design, and interpreting the molecular data. JW participated in the study design and interpretation of the data. MC participated in the study design, analysis and interpretation of the data. YX participated in the study design and interpretation of the data. YL participated in conceiving the study. All authors

have read and approved the final manuscript.”
“Background Leptospira interrogans is the most common etiologic buy Savolitinib agent of severe leptospirosis, a zoonotic disease with worldwide distribution [1–3]. Leptospires have been serologically classified based on antigenic determinants into more than 230 serovars. With more recent genetic classification based on DNA relatedness, Leptospira has been classified into at least 17 species [1, 4–6]. However, no correlation exists between VX-689 nmr serological and genetic classification. Many species of animals, both domestic and wild, serve as reservoir hosts, resulting

in the global spread of the disease. Humans are accidental hosts, with transmission occurring via direct or indirect AMN-107 contact with the urine of infected animals. Pathogenic Leptospira can survive for prolonged periods of time in the environment [7]. After gaining entry through skin abrasions or mucous membranes, the spirochete spreads hematogenously to multiple target organs such as the kidneys, liver, and lung, resulting

in a wide spectrum of clinical manifestations [1, 3]. Therefore, adaptation to various environmental cues outside and within the hosts and the ability to survive in the bloodstream contribute mafosfamide to the ability of leptospires to cause disease. The responses of leptospires at transcriptional and translational levels to changes in various environmental factors such as temperature, osmolarity, and iron availability have been reported previously [8–13]. Proteins such as Qlp42, Hsp15, LigA, LigB, Sph2, and Lsa21 are up-regulated in response to physiologic temperature or osmolarity [12, 14–17]. In contrast, LipL36 is down-regulated at 37°C and during mammalian infection [8, 18]. Previous studies demonstrated the in vivo expression of several outer membrane proteins, based on the presence of antibodies against these proteins in immune sera or detection of proteins in host tissues infected with pathogenic Leptospira [17, 19–27]. These proteins, which are expressed in vivo or at physiologic conditions, therefore constitute potential virulence-associated factors required for host interaction or survival of Leptospira in infected hosts. DNA microarrays have been used to study genome-wide differential gene expression of bacteria during infection and upon exposure to various stimuli related to in vivo conditions [28–32].

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