Figure 4.
Figure 4. Phenotypic and functional alterations of BM mesenchymal cells in the Sipa1−/− mice prior to the initiation of MPN. (A) Representative FACS profiles of the analysis of BM stromal cells subsets in 3-month-old Sipa1+/+ and Sipa1−/− mice. The CD45−TER119−CD31−PI− cells were first divided into the CD44− and CD44+ cells. The SCA1+CD51+ MSCs, SCA1+CD51− MPCs, and SCA1−CD51− cells were subsequently gated within the CD44− cells. (B) The frequency of CD31+ cells in the Sipa1+/+ and Sipa1−/− mouse BM. (C) The percent of the MSCs, MPCs, and the SCA1−CD51− cells within total CD45−TER119−CD31− stromal cells. The data are from 3 independent experiments. (D) CFU-F frequencies in Sipa1+/+ and Sipa1−/− mouse BM MNCs and FACS-sorted MSCs. (E) Multilineage differentiation potentials of MSCs from Sipa1+/+ and Sipa1−/− BM. Scale bars represent 250 μm (left), 500 μm (middle), and 50 μm (right). n = 3 independent sorting experiments. (F) Representative μCT images of the longitudinal femoral section indicating reduced bone mass of Sipa1−/− mouse femurs. Scale bars represent 1.0 mm. (G) Femoral bone (left) and marrow (right) volumes of Sipa1+/+ and Sipa1−/− mice. n = 3 per group of each genotype. (H) Colony-forming unit in culture (CFU-C) colonies derived from 100 LSK cells cocultured with Sipa1+/+ BM MSC, MPC, CD51−SCA1− mature stromal cells and endothelial cells. Total CFU-C, colonies with GM, G, M, erythrocytes (E), and GME lineages were counted. (I-J) The numbers of CFU-C colonies per 100 LSK cells after coculture with Sipa1+/+ and Sipa1−/− MSC (I) and MPC (J). Data were collected from 2 to 3 independent experiments. The statistical difference was determined by unpaired Student t test. See also in supplemental Figure 2.

Phenotypic and functional alterations of BM mesenchymal cells in the Sipa1−/− mice prior to the initiation of MPN. (A) Representative FACS profiles of the analysis of BM stromal cells subsets in 3-month-old Sipa1+/+ and Sipa1−/− mice. The CD45TER119CD31PI cells were first divided into the CD44 and CD44+ cells. The SCA1+CD51+ MSCs, SCA1+CD51 MPCs, and SCA1CD51 cells were subsequently gated within the CD44 cells. (B) The frequency of CD31+ cells in the Sipa1+/+ and Sipa1−/− mouse BM. (C) The percent of the MSCs, MPCs, and the SCA1CD51 cells within total CD45TER119CD31 stromal cells. The data are from 3 independent experiments. (D) CFU-F frequencies in Sipa1+/+ and Sipa1−/− mouse BM MNCs and FACS-sorted MSCs. (E) Multilineage differentiation potentials of MSCs from Sipa1+/+ and Sipa1−/− BM. Scale bars represent 250 μm (left), 500 μm (middle), and 50 μm (right). n = 3 independent sorting experiments. (F) Representative μCT images of the longitudinal femoral section indicating reduced bone mass of Sipa1−/− mouse femurs. Scale bars represent 1.0 mm. (G) Femoral bone (left) and marrow (right) volumes of Sipa1+/+ and Sipa1−/− mice. n = 3 per group of each genotype. (H) Colony-forming unit in culture (CFU-C) colonies derived from 100 LSK cells cocultured with Sipa1+/+ BM MSC, MPC, CD51SCA1 mature stromal cells and endothelial cells. Total CFU-C, colonies with GM, G, M, erythrocytes (E), and GME lineages were counted. (I-J) The numbers of CFU-C colonies per 100 LSK cells after coculture with Sipa1+/+ and Sipa1−/− MSC (I) and MPC (J). Data were collected from 2 to 3 independent experiments. The statistical difference was determined by unpaired Student t test. See also in supplemental Figure 2.

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