Increased recognition of the prevalence of human babesiosis in the United States, together with rising concern about the potential for transmission of this infection by blood transfusion, has provided motivation to develop definitive serologic and molecular tests for the causative agent, Babesia microti. To develop more sensitive and specific assays for B. microti, we screened a genomic expression library with patient serum pools. This screening resulted in the identification of three classes of novel genes and an additional two novel, unrelated genes, which together encode a total of 17 unique B. microti antigens. The first class (BMN1-2 family) of genes encodes seven closely related antigens with a degenerate six-amino-acid repeat that shows limited homology to Plasmodium sp. merozoite and sporozoite surface antigens. A second class (BMN1-8 family) of genes encodes six related antigens, and the third class (BMN1-17 family) of genes encodes two related antigens. The two remaining genes code for novel and unrelated sequences. Among the three classes of antigens and remaining novel sequences, five were chosen to code for the most immunodominant antigens (BMN1-2, -9, -15, and -17 and MN-10). Western blot analysis with the resulting recombinant proteins indicated that these antigens were targets of humoral immune responses during B. microti infection in humans.
Triple-negative breast cancer (TNBC) accounts for a disproportionately high number of deaths due to a lack of targeted therapies and an increased likelihood of distant recurrence. Estrogen receptor beta (ERβ), a well-characterized tumor suppressor, is expressed in 30% of TNBCs, and its expression is associated with improved patient outcomes. We demonstrate that therapeutic activation of ERβ elicits potent anticancer effects in TNBC through the induction of a family of secreted proteins known as the cystatins, which function to inhibit canonical TGFβ signaling and suppress metastatic phenotypes both in vitro and in vivo. These data reveal the involvement of cystatins in suppressing breast cancer progression and highlight the value of ERβ-targeted therapies for the treatment of TNBC patients.
JARID1B/KDM5B (jumonji AT-rich interactive domain 1B/lysine-specific demethylase 5B) is an enzyme that efficiently removes methyl residues from trimethylated lysine 4 on histone H3, a pivotal mark for active chromatin. TIEG1/KLF10 (transforming growth factor-β inducible early gene-1/Krüppel-like transcription factor 10) is a zinc-finger transcription factor that is involved in bone metabolism and exerts antiproliferative activity. Here, we found that TIEG1 interacts with JARID1B. In particular, the repression domains of TIEG1 bind to the C-terminus of JARID1B. Moreover, overexpression of JARID1B augments TIEG1 to repress transcription of Smad7, an inhibitor of the TGF-β (transforming growth factor-β) signaling pathway. Conversely, JARID1B knock-down leads to increased Smad7 mRNA levels. Thus, TIEG1 and JARID1B may cooperate to suppress tumorigenesis by enhancing TGF-β signaling. Notably, both TIEG1 and JARID1B are downregulated in melanomas, suggesting that they indeed cooperate physiologically. In conclusion, JARID1B is the first TIEG1 corepressor identified, explaining how TIEG1 represses transcription through inducing histone H3 lysine 4 demethylation, which may be important for TIEG1 function in both normal and cancer cells.
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