Ers revealed that IL-6 facilitates the process of monocyte to myeloid fibroblast transition [26, 58]. The results from other laboratories also suggest that not only monocyte-derived macrophages but also resident macrophages (that are thought to be of embryonic origin [59]) may play a role in fibrosis. As shown by Pinto et al. in the resting aging heart there is a population of resident M2 macrophages that have a self-renewing capacity [60], and which we hypothesize may polarize into myeloid fibroblasts via an IL-6 dependent mechanism (Fig. 2). It is important to note that the cells identified in this review as myeloid fibroblasts are often referred to in the literature as bone-marrow derived fibroblast precursors or fibrocytes. In our studies of the role of inflammation in interstitial fibrosis, we have previously demonstrated fibrotic mechanisms dependent upon the development of fibroblasts from tissue-infiltrating monocytes in response to dysregulated chemokine signaling. We called these cells myeloid fibroblasts, indicating their bone marrow monocyte origin and final maturation status, although they are PF-04418948 biological activity likely identical to cells called fibrocytes that are ofAuthor Manuscript Author Manuscript Author Manuscript Author ManuscriptJ Mol Cell Cardiol. Author manuscript; available in PMC 2017 February 01.Trial et al.Pagemonocytic origin and have been observed in many organs associated with a fibrotic response [61]. 2.4. Role of mesenchymal and myeloid fibroblasts in fibrosis Interstitial fibrosis in aging is associated with upregulation of two fibroblast populations emanating from different developmental Aprotinin site sources, resident mesenchymal fibroblasts and myeloid fibroblasts. Our original study in young mice demonstrated that dysregulation of chemokine expression induced progressive but short-lived interstitial fibrosis requiring the presence of MCP-1 and being limited by suppression of MCP-1 in response to TGF- [62]. The MSC in aging, however, become resistant to TGF- stimulation, which accelerates their differentiation (reduces their stemness) and promotes the generation of inflammatory mesenchymal fibroblasts. These inflammatory fibroblasts (CD45negCol1+) demonstrate increased collagen expression, which partially explains the resultant fibrosis. In addition, the secretion of MCP-1 and IL-6, as discussed above, promotes the uptake of monocytes and their differentiation into myeloid fibroblasts (CD45+Col1+). In models of cardiac injury in young animals, studies using lineage tracing and other approaches have demonstrated that resident fibroblasts and their precursors are the major contributors to fibrosis [63?5]. With respect to the aging heart we have quantified CD44+CD45neg resident fibroblasts that are positive for cytoplasmic type I collagen and reported that more of these cells expressed collagen than in the young controls (93 versus 26 ) [25]. It is thus likely that, during aging, the same populations of resident fibroblasts and their precursors mediate fibrosis as are seen in post-cardiac injury fibrosis in young animals. 2.5. The phenotype of bone wall MSC and fibroblasts derived from them in young and aging miceAuthor Manuscript Author Manuscript Author Manuscript Author ManuscriptIt is not clear in what circumstances bone marrow derived MSC can contribute to the fibroblast pool in the heart after injury. Reports demonstrating opposite results have been presented [66, 67] and one reason for the discrepancy may be dependent on the type.Ers revealed that IL-6 facilitates the process of monocyte to myeloid fibroblast transition [26, 58]. The results from other laboratories also suggest that not only monocyte-derived macrophages but also resident macrophages (that are thought to be of embryonic origin [59]) may play a role in fibrosis. As shown by Pinto et al. in the resting aging heart there is a population of resident M2 macrophages that have a self-renewing capacity [60], and which we hypothesize may polarize into myeloid fibroblasts via an IL-6 dependent mechanism (Fig. 2). It is important to note that the cells identified in this review as myeloid fibroblasts are often referred to in the literature as bone-marrow derived fibroblast precursors or fibrocytes. In our studies of the role of inflammation in interstitial fibrosis, we have previously demonstrated fibrotic mechanisms dependent upon the development of fibroblasts from tissue-infiltrating monocytes in response to dysregulated chemokine signaling. We called these cells myeloid fibroblasts, indicating their bone marrow monocyte origin and final maturation status, although they are likely identical to cells called fibrocytes that are ofAuthor Manuscript Author Manuscript Author Manuscript Author ManuscriptJ Mol Cell Cardiol. Author manuscript; available in PMC 2017 February 01.Trial et al.Pagemonocytic origin and have been observed in many organs associated with a fibrotic response [61]. 2.4. Role of mesenchymal and myeloid fibroblasts in fibrosis Interstitial fibrosis in aging is associated with upregulation of two fibroblast populations emanating from different developmental sources, resident mesenchymal fibroblasts and myeloid fibroblasts. Our original study in young mice demonstrated that dysregulation of chemokine expression induced progressive but short-lived interstitial fibrosis requiring the presence of MCP-1 and being limited by suppression of MCP-1 in response to TGF- [62]. The MSC in aging, however, become resistant to TGF- stimulation, which accelerates their differentiation (reduces their stemness) and promotes the generation of inflammatory mesenchymal fibroblasts. These inflammatory fibroblasts (CD45negCol1+) demonstrate increased collagen expression, which partially explains the resultant fibrosis. In addition, the secretion of MCP-1 and IL-6, as discussed above, promotes the uptake of monocytes and their differentiation into myeloid fibroblasts (CD45+Col1+). In models of cardiac injury in young animals, studies using lineage tracing and other approaches have demonstrated that resident fibroblasts and their precursors are the major contributors to fibrosis [63?5]. With respect to the aging heart we have quantified CD44+CD45neg resident fibroblasts that are positive for cytoplasmic type I collagen and reported that more of these cells expressed collagen than in the young controls (93 versus 26 ) [25]. It is thus likely that, during aging, the same populations of resident fibroblasts and their precursors mediate fibrosis as are seen in post-cardiac injury fibrosis in young animals. 2.5. The phenotype of bone wall MSC and fibroblasts derived from them in young and aging miceAuthor Manuscript Author Manuscript Author Manuscript Author ManuscriptIt is not clear in what circumstances bone marrow derived MSC can contribute to the fibroblast pool in the heart after injury. Reports demonstrating opposite results have been presented [66, 67] and one reason for the discrepancy may be dependent on the type.
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