Dafna Bar-Sagi

Publications (3)25.63 Total impact

• Article: Distinct populations of metastases-enabling myeloid cells expand in the liver of mice harboring invasive and preinvasive intra-abdominal tumor.

  Michael K Connolly, Jon Mallen-St Clair, Andrea S Bedrosian, Ashim Malhotra, Valery Vera, Junaid Ibrahim, Justin Henning, H Leon Pachter, Dafna Bar-Sagi, Alan B Frey, George Miller
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  ABSTRACT: The liver is the most common site of adenocarcinoma metastases, even in patients who initially present with early disease. We postulated that immune-suppressive cells in the liver of tumor-bearing hosts inhibit anti-tumor T cells, thereby accelerating the growth of liver metastases. Using models of early preinvasive pancreatic neoplasia and advanced colorectal cancer, aims of this study were to determine immune phenotype, stimulus for recruitment, inhibitory effects, and tumor-enabling function of immune-suppressive cells in the liver of tumor-bearing hosts. We found that in mice with intra-abdominal malignancies, two distinct CD11b(+)Gr1(+) populations with divergent phenotypic and functional properties accumulate in the liver, becoming the dominant hepatic leukocytes. Their expansion is contingent on tumor expression of KC. These cells are distinct from CD11b(+)Gr1(+) populations in other tissues of tumor-bearing hosts in terms of cellular phenotype and cytokine and chemokine profile. Liver CD11b(+)Gr1(+) cells are highly suppressive of T cell activation, proliferation, and cytotoxicity and induce the development of Tregs. Moreover, liver myeloid-derived suppressor cells accelerate the development of hepatic metastases by inactivation of cytotoxic T cells. These findings may explain the propensity of patients with intra-abdominal cancers to develop liver metastases and suggest a promising target for experimental therapeutics.
  Journal of leukocyte biology 04/2010; 87(4):713-25. · 4.99 Impact Factor
• Article: In liver fibrosis, dendritic cells govern hepatic inflammation in mice via TNF-alpha.

  Michael K Connolly, Andrea S Bedrosian, Jon Mallen-St Clair, Aaron P Mitchell, Junaid Ibrahim, Andrea Stroud, H Leon Pachter, Dafna Bar-Sagi, Alan B Frey, George Miller
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  ABSTRACT: Hepatic fibrosis occurs during most chronic liver diseases and is driven by inflammatory responses to injured tissue. Because DCs are central to modulating liver immunity, we postulated that altered DC function contributes to immunologic changes in hepatic fibrosis and affects the pathologic inflammatory milieu within the fibrotic liver. Using mouse models, we determined the contribution of DCs to altered hepatic immunity in fibrosis and investigated the role of DCs in modulating the inflammatory environment within the fibrotic liver. We found that DC depletion completely abrogated the elevated levels of many inflammatory mediators that are produced in the fibrotic liver. DCs represented approximately 25% of the fibrotic hepatic leukocytes and showed an elevated CD11b+CD8- fraction, a lower B220+ plasmacytoid fraction, and increased expression of MHC II and CD40. Moreover, after liver injury, DCs gained a marked capacity to induce hepatic stellate cells, NK cells, and T cells to mediate inflammation, proliferation, and production of potent immune responses. The proinflammatory and immunogenic effects of fibrotic DCs were contingent on their production of TNF-alpha. Therefore, modulating DC function may be an attractive approach to experimental therapeutics in fibro-inflammatory liver disease.
  The Journal of clinical investigation 11/2009; 119(11):3213-25. · 15.39 Impact Factor
• Article: Design, synthesis, and biological evaluation of new-generation taxoids.

  Iwao Ojima, Jin Chen, Liang Sun, Christopher P Borella, Tao Wang, Michael L Miller, Songnian Lin, Xudong Geng, Larisa Kuznetsova, Chuanxing Qu, [......], Xianrui Zhao, Ilaria Zanardi, Shujun Xia, Susan B Horwitz, Jon Mallen-St Clair, Jennifer L Guerriero, Dafna Bar-Sagi, Jean M Veith, Paula Pera, Ralph J Bernacki
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  ABSTRACT: Novel second-generation taxoids with systematic modifications at the C2, C10, and C3'N positions were synthesized and their structure-activity relationships studied. A number of these taxoids exhibited exceptionally high potency against multidrug-resistant cell lines, and several taxoids exhibited virtually no difference in potency against the drug-sensitive and drug-resistant cell lines. These exceptionally potent taxoids were termed "third-generation taxoids". 19 (SB-T-1214), 14g (SB-T-121303), and 14i (SB-T-1213031) exhibited excellent activity against paclitaxel-resistant ovarian cancer cell lines with mutations in beta-tubulin as well, wherein the drug resistance is mediated by the beta-tubulin mutation. These taxoids were found to possess exceptional activity in promoting tubulin assembly, forming numerous very short microtubules similar to those formed by discodermolide. Taxoids 19 and 14g also showed excellent cytotoxicity against four pancreatic cancer cell lines, expressing three to four multidrug-resistant genes. Moreover, taxoid 19 exhibited excellent in vivo efficacy against highly drug-resistant CFPAC-1 pancreatic as well as DLD-1 human colon tumor xenografts in mice.
  Journal of Medicinal Chemistry 07/2008; 51(11):3203-21. · 5.25 Impact Factor