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Imulates and TGFBR inhibition represses EGR2 mRNA expression in both HMECs as well as MMECs (Additional file 2: Figure S2, Fig. 2). We have also observed that tumors derived from Sfrp1-/- mice express significantly higher levels of both Tgfb1 and Egr2 mRNA (data not shown). Dillon et al. revealed that Egr2 expression is upregulated in Erbb2 driven mammary tumors [25]. However, these researchers di
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Imulates and TGFBR inhibition represses EGR2 mRNA expression in both HMECs as well as MMECs (Additional file 2: Figure S2, Fig. 2). We have also observed that tumors derived from Sfrp1-/- mice express significantly higher levels of both Tgfb1 and Egr2 mRNA (data not shown). Dillon et al. revealed that Egr2 expression is upregulated in Erbb2 driven mammary tumors [25]. However, these researchers di
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Ated with cancer growth and proliferation. Our data reveal that mouse macrophages polarized to M1 macrophages in response to LPS exhibit a significant increase in M1 marker expression when treated with recombinant SFRP1. The fact that we did not observe similar findings when human mammary gland explants were treated with SFRP1 could be due to the fact that our murine macrophages were isolated from
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Tion, and additional tumor initiating pathways promote mammary carcinogenesis. We have previously shown that activated ERK1/2 levels and the migratory action of TERT-siSFRP1 cells are drastically reduced in response to TGF-R inhibition which is consistent with work described by Imamichi et al. showing that TGF- signaling mediates the cellular migration of breast cancer cells by ERK1/2 activation [
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Tion, and additional tumor initiating pathways promote mammary carcinogenesis. We have previously shown that activated ERK1/2 levels and the migratory action of TERT-siSFRP1 cells are drastically reduced in response to TGF-R inhibition which is consistent with work described by Imamichi et al. showing that TGF- signaling mediates the cellular migration of breast cancer cells by ERK1/2 activation [
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Rupted in mice, osteoblasts exhibit a blunted Egr2 mRNA expression in response to mechanical strain [43]. Taken together, more research is required in order to elucidate the role ER plays in EGR2 regulation. TGF- and Wnt signaling regulate a variety of physiological processes including mammary gland developmentand tumorigenesis. SFRP1 has been associated with the control of TGF- and Wnt signaling.
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Rupted in mice, osteoblasts exhibit a blunted Egr2 mRNA expression in response to mechanical strain [43]. Taken together, more research is required in order to elucidate the role ER plays in EGR2 regulation. TGF- and Wnt signaling regulate a variety of physiological processes including mammary gland developmentand tumorigenesis. SFRP1 has been associated with the control of TGF- and Wnt signaling.
1
Imulates and TGFBR inhibition represses EGR2 mRNA expression in both HMECs as well as MMECs (Additional file 2: Figure S2, Fig. 2). We have also observed that tumors derived from Sfrp1-/- mice express significantly higher levels of both Tgfb1 and Egr2 mRNA (data not shown). Dillon et al. revealed that Egr2 expression is upregulated in Erbb2 driven mammary tumors [25]. However, these researchers di
1
Tion, and additional tumor initiating pathways promote mammary carcinogenesis. We have previously shown that activated ERK1/2 levels and the migratory action of TERT-siSFRP1 cells are drastically reduced in response to TGF-R inhibition which is consistent with work described by Imamichi et al. showing that TGF- signaling mediates the cellular migration of breast cancer cells by ERK1/2 activation [
1
Tion, and additional tumor initiating pathways promote mammary carcinogenesis. We have previously shown that activated ERK1/2 levels and the migratory action of TERT-siSFRP1 cells are drastically reduced in response to TGF-R inhibition which is consistent with work described by Imamichi et al. showing that TGF- signaling mediates the cellular migration of breast cancer cells by ERK1/2 activation [