Io. For ratio calculation methodology, 1516647 see “Materials and Methods”. Similar results were obtained from three independent experiments. (D) Endpoint RT-PCR analysis for Prox1 in AEC/Prox1 cells with or without co-culturing with smooth muscle cells. Results show no change in Prox1 transcript levels occurring with EC-SMC co-culturing. (E) Further analysis using quantitative RT-PCR demonstrates no significant change. The above analysis represents three separate experiments. doi:10.1371/journal.pone.0052197.g[26], Jagged1 [27] and Notch3 [28] play key roles in smooth muscle cell development. Thus it is possible that Notch activation in certain circumstances can alter the balance between vascular and lymphatic identities by shifting Prox1 expression during development [23]. Indeed, suppression of Notch results in the Arg8-vasopressin downregulation of VEGF-C/VEGFR-3 signaling, resulting in a reduction of lymphangiogenesis [29]. Conversely, inhibiting Notch when in the presence of VEGF results in LEC sprouting in a 3dimensional culture as well as in vivo lymphangiogenesis [30].Whether the Notch pathway also influences our model will require further order Human parathyroid hormone-(1-34) investigation. Our model suggests that SMC association with endothelial cells correlates with the suppression of Prox1 in the dorsal aorta and that this may provide an explanation as to why Prox1 is not found on this structure during early development. We suspect that in our transgenic model a continuum of Prox1 regulation likely exists that is influenced by SMCs over the developmental period of E9.5 to E11.5 (Figure S6). After E11.5 the ectopic expression of Prox1 inSpecificity of Vascular Reprogramming via Proxthe DA is suppressed in DT transgenics. Examples of muralendothelial cell interactions influencing vascular and lymphatic vessel reprogramming and development exist in both normal and pathological scenarios. In cancer, fate changes occur when factors associated with lymphatic endothelial cells such as VEGF-C and Prox1, promote tumor lymphangiogenesis by reprogramming vascular endothelial cells [31]. The presentation of LymphedemaDistischiasis (LD, OMIM153400), a hereditary form of lymphedema, is due to the loss of the transcription factor FoxC2. Indeed the loss of FoxC2 results in an increase in mural cell association to the initial lymphatics. Interestingly, this correlates with the reprogramming 1662274 of the lymphatic endothelium to a more bloodlike phenotype characterized by the downregulation of VEGFR-3, upregulation of basement membrane proteins and an increase in PDGF-B expression [32,33]. Consistent with the role of SMCs modulating the development of the lymphatic vasculature, disruption of Angiopoietin-2 during postnatal lymphatic development results in abnormal mural cell recruitment to collecting dermal lymphatics resulting in defective lymphatic vessel maturation [34]. One aspect of our model posits that mechanisms exist that maintain a lymphatic profile while being associated with smooth muscle cells, for example as seen with higher caliber lymphatic vessels (collecting versus initial). The maintenance of lymphatic identity appears to depend on the expression levels of Prox1 itself. Indeed, when comparing Prox1 levels in collecting versus initial lymphatics it was found that Prox1 levels are higher in larger caliber collecting vessels [35]. Moreover, the expression of Prox1 is absolutely required to maintain a LEC phenotype, suggesting that mechanisms are in place to sustain the expression of Prox1 re.Io. For ratio calculation methodology, 1516647 see “Materials and Methods”. Similar results were obtained from three independent experiments. (D) Endpoint RT-PCR analysis for Prox1 in AEC/Prox1 cells with or without co-culturing with smooth muscle cells. Results show no change in Prox1 transcript levels occurring with EC-SMC co-culturing. (E) Further analysis using quantitative RT-PCR demonstrates no significant change. The above analysis represents three separate experiments. doi:10.1371/journal.pone.0052197.g[26], Jagged1 [27] and Notch3 [28] play key roles in smooth muscle cell development. Thus it is possible that Notch activation in certain circumstances can alter the balance between vascular and lymphatic identities by shifting Prox1 expression during development [23]. Indeed, suppression of Notch results in the downregulation of VEGF-C/VEGFR-3 signaling, resulting in a reduction of lymphangiogenesis [29]. Conversely, inhibiting Notch when in the presence of VEGF results in LEC sprouting in a 3dimensional culture as well as in vivo lymphangiogenesis [30].Whether the Notch pathway also influences our model will require further investigation. Our model suggests that SMC association with endothelial cells correlates with the suppression of Prox1 in the dorsal aorta and that this may provide an explanation as to why Prox1 is not found on this structure during early development. We suspect that in our transgenic model a continuum of Prox1 regulation likely exists that is influenced by SMCs over the developmental period of E9.5 to E11.5 (Figure S6). After E11.5 the ectopic expression of Prox1 inSpecificity of Vascular Reprogramming via Proxthe DA is suppressed in DT transgenics. Examples of muralendothelial cell interactions influencing vascular and lymphatic vessel reprogramming and development exist in both normal and pathological scenarios. In cancer, fate changes occur when factors associated with lymphatic endothelial cells such as VEGF-C and Prox1, promote tumor lymphangiogenesis by reprogramming vascular endothelial cells [31]. The presentation of LymphedemaDistischiasis (LD, OMIM153400), a hereditary form of lymphedema, is due to the loss of the transcription factor FoxC2. Indeed the loss of FoxC2 results in an increase in mural cell association to the initial lymphatics. Interestingly, this correlates with the reprogramming 1662274 of the lymphatic endothelium to a more bloodlike phenotype characterized by the downregulation of VEGFR-3, upregulation of basement membrane proteins and an increase in PDGF-B expression [32,33]. Consistent with the role of SMCs modulating the development of the lymphatic vasculature, disruption of Angiopoietin-2 during postnatal lymphatic development results in abnormal mural cell recruitment to collecting dermal lymphatics resulting in defective lymphatic vessel maturation [34]. One aspect of our model posits that mechanisms exist that maintain a lymphatic profile while being associated with smooth muscle cells, for example as seen with higher caliber lymphatic vessels (collecting versus initial). The maintenance of lymphatic identity appears to depend on the expression levels of Prox1 itself. Indeed, when comparing Prox1 levels in collecting versus initial lymphatics it was found that Prox1 levels are higher in larger caliber collecting vessels [35]. Moreover, the expression of Prox1 is absolutely required to maintain a LEC phenotype, suggesting that mechanisms are in place to sustain the expression of Prox1 re.
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