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anti ibsp  (Bioss)


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    Bioss anti ibsp
    Characteristics of iOBs derived from donors with different ages . (A) Alizarin Red staining of osteoblasts derived from bMSCs (31 years), iOBs from 8-, 79-year-old donors and their parent fibroblasts after cultured in osteogenic medium for 14 days. n ≥ 3 independent experiments. Y, young referred to individuals under 65 years of age; O, old referred to individuals aged 65 years and older. Scale bar = 100 μm. (B) mRNA levels for <t>ALP,</t> <t>OCN,</t> SATB2 and <t>IBSP</t> after 14 days culture in osteogenic medium. The Y-bMSC were isolated from donors of 26-,31-,33-year-old.The Y-Fib or Y-iOBs were derived from donors of 8-,38-,39-year-old. The O-Fib or O-iOBs were derived from donors of 67-,70-,74-,75-,79-year-old. Gene expression was shown as log 2 (fold change). n ≥ 3 independent experiments. (C) Cell number of starting fibroblasts and resultant iOBs after 18 days' treating. n = 8 individuals' iOBs. (D) Schema for extent of cell expansion during iOBs conversion from skin fibroblasts. (E) The secretion of COL1 and VEGF in Y-bMSC-OB, iOBs and their parent fibroblasts. Y-bMSC-OBs in immunofluorescence images were derived from 31-year-old donors, and O-iOBs and its parent O-Fib were from 79-year-old donor. n ≥ 3 independent experiments. Scale bar = 50 μm. (F) SA-β-gal activity in Y-bMSC-OB, O-bMSC-OB, Y-iOB from a 39-year-old individual, O-iOB from a 79-year-old donor. n ≥ 3 independent experiments. Scale bar = 100 μm. (G) The secretion of IL-6 in Y-bMSC-OB, O-bMSC-OB, Y-iOBs and O-iOBs. n ≥ 3 independent experiments. (H) mRNA levels for CDKN1A and CDKN2A in osteoblasts derived from bMSCs and iOBs from young or old individuals. Gene expression was shown as log 2 (fold change). n ≥ 3 independent experiments. (A) (B) (E) (F) (G) (H) data were presented as means ± s.d. Significance was determined when samples were compared to Y-bMSC-OB or pairwise comparisons between the groups connected by lines. One-way ANOVA with Bonferroni correction. ∗ p < 0.05, ∗∗ p < 0.01.
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    Images

    1) Product Images from "Engineering fibroblast with reprogramming and spheronization for bone defect repair"

    Article Title: Engineering fibroblast with reprogramming and spheronization for bone defect repair

    Journal: Bioactive Materials

    doi: 10.1016/j.bioactmat.2025.04.021

    Characteristics of iOBs derived from donors with different ages . (A) Alizarin Red staining of osteoblasts derived from bMSCs (31 years), iOBs from 8-, 79-year-old donors and their parent fibroblasts after cultured in osteogenic medium for 14 days. n ≥ 3 independent experiments. Y, young referred to individuals under 65 years of age; O, old referred to individuals aged 65 years and older. Scale bar = 100 μm. (B) mRNA levels for ALP, OCN, SATB2 and IBSP after 14 days culture in osteogenic medium. The Y-bMSC were isolated from donors of 26-,31-,33-year-old.The Y-Fib or Y-iOBs were derived from donors of 8-,38-,39-year-old. The O-Fib or O-iOBs were derived from donors of 67-,70-,74-,75-,79-year-old. Gene expression was shown as log 2 (fold change). n ≥ 3 independent experiments. (C) Cell number of starting fibroblasts and resultant iOBs after 18 days' treating. n = 8 individuals' iOBs. (D) Schema for extent of cell expansion during iOBs conversion from skin fibroblasts. (E) The secretion of COL1 and VEGF in Y-bMSC-OB, iOBs and their parent fibroblasts. Y-bMSC-OBs in immunofluorescence images were derived from 31-year-old donors, and O-iOBs and its parent O-Fib were from 79-year-old donor. n ≥ 3 independent experiments. Scale bar = 50 μm. (F) SA-β-gal activity in Y-bMSC-OB, O-bMSC-OB, Y-iOB from a 39-year-old individual, O-iOB from a 79-year-old donor. n ≥ 3 independent experiments. Scale bar = 100 μm. (G) The secretion of IL-6 in Y-bMSC-OB, O-bMSC-OB, Y-iOBs and O-iOBs. n ≥ 3 independent experiments. (H) mRNA levels for CDKN1A and CDKN2A in osteoblasts derived from bMSCs and iOBs from young or old individuals. Gene expression was shown as log 2 (fold change). n ≥ 3 independent experiments. (A) (B) (E) (F) (G) (H) data were presented as means ± s.d. Significance was determined when samples were compared to Y-bMSC-OB or pairwise comparisons between the groups connected by lines. One-way ANOVA with Bonferroni correction. ∗ p < 0.05, ∗∗ p < 0.01.
    Figure Legend Snippet: Characteristics of iOBs derived from donors with different ages . (A) Alizarin Red staining of osteoblasts derived from bMSCs (31 years), iOBs from 8-, 79-year-old donors and their parent fibroblasts after cultured in osteogenic medium for 14 days. n ≥ 3 independent experiments. Y, young referred to individuals under 65 years of age; O, old referred to individuals aged 65 years and older. Scale bar = 100 μm. (B) mRNA levels for ALP, OCN, SATB2 and IBSP after 14 days culture in osteogenic medium. The Y-bMSC were isolated from donors of 26-,31-,33-year-old.The Y-Fib or Y-iOBs were derived from donors of 8-,38-,39-year-old. The O-Fib or O-iOBs were derived from donors of 67-,70-,74-,75-,79-year-old. Gene expression was shown as log 2 (fold change). n ≥ 3 independent experiments. (C) Cell number of starting fibroblasts and resultant iOBs after 18 days' treating. n = 8 individuals' iOBs. (D) Schema for extent of cell expansion during iOBs conversion from skin fibroblasts. (E) The secretion of COL1 and VEGF in Y-bMSC-OB, iOBs and their parent fibroblasts. Y-bMSC-OBs in immunofluorescence images were derived from 31-year-old donors, and O-iOBs and its parent O-Fib were from 79-year-old donor. n ≥ 3 independent experiments. Scale bar = 50 μm. (F) SA-β-gal activity in Y-bMSC-OB, O-bMSC-OB, Y-iOB from a 39-year-old individual, O-iOB from a 79-year-old donor. n ≥ 3 independent experiments. Scale bar = 100 μm. (G) The secretion of IL-6 in Y-bMSC-OB, O-bMSC-OB, Y-iOBs and O-iOBs. n ≥ 3 independent experiments. (H) mRNA levels for CDKN1A and CDKN2A in osteoblasts derived from bMSCs and iOBs from young or old individuals. Gene expression was shown as log 2 (fold change). n ≥ 3 independent experiments. (A) (B) (E) (F) (G) (H) data were presented as means ± s.d. Significance was determined when samples were compared to Y-bMSC-OB or pairwise comparisons between the groups connected by lines. One-way ANOVA with Bonferroni correction. ∗ p < 0.05, ∗∗ p < 0.01.

    Techniques Used: Derivative Assay, Staining, Cell Culture, Isolation, Gene Expression, Immunofluorescence, Activity Assay

    Therapeutic effects of iOB-Sps on bone regeneration (A) 5 mm in the length and 1.5 mm in width femoral bone defect was created by dental drill on the right femur. Each scale of the ruler indicates 0.5 mm. (B) The preparation of iOB-Sps to fit the damaged size. (C) The transplantation of iOB-Sps into bone defect. (D) μCT imaging of the femur transplanted by Fibs, Fib-Sps, bMSCs and iOB-Sps in NOD/SCID mice with femur defect. iOB-Sps were derived from old donors, O = Old. (E) BMD, BS/TV, BV/TV, Tb. N values in bone defect healing. n = 5 independent experiments. Significance was determined when samples were compared to group Neg or pairwise comparisons between the groups connected by lines. (F) Analysis of Tunel staining for iOBs apoptosis in spheroid before and after 28-days transplantation. n = 7 independent experiments in iOB-Sps culture in vitro and n = 5 independent experiments in iOB-Sps transplanted in vivo. (G) Analysis of Ki67 fluorescent staining for iOBs proliferation in spheroid before and after 28-days transplantation. n = 7 independent experiments in iOB-Sps culture in vitro and n = 5 independent experiments in iOB-Sps transplanted in vivo. (H) Counting of iOBs when cultured in vitro spheroid and in vivo post transplantation. (I) Representative images and quantification analysis of GFP and IBSP positive cells in bone defects. n = 7 independent experiments in iOB-Sps culture in vitro and n = 5 independent experiments in iOB-Sps transplanted in vivo. (E)–(I) data were presented as means ± s.d. ∗ p < 0.05, ∗∗ p < 0.01, ∗∗∗ p < 0.001. One-way ANOVA with Bonferroni correction in (E); Student t-test in (F)–(I). Scale bar = 10 μm in (F) (G) (I).
    Figure Legend Snippet: Therapeutic effects of iOB-Sps on bone regeneration (A) 5 mm in the length and 1.5 mm in width femoral bone defect was created by dental drill on the right femur. Each scale of the ruler indicates 0.5 mm. (B) The preparation of iOB-Sps to fit the damaged size. (C) The transplantation of iOB-Sps into bone defect. (D) μCT imaging of the femur transplanted by Fibs, Fib-Sps, bMSCs and iOB-Sps in NOD/SCID mice with femur defect. iOB-Sps were derived from old donors, O = Old. (E) BMD, BS/TV, BV/TV, Tb. N values in bone defect healing. n = 5 independent experiments. Significance was determined when samples were compared to group Neg or pairwise comparisons between the groups connected by lines. (F) Analysis of Tunel staining for iOBs apoptosis in spheroid before and after 28-days transplantation. n = 7 independent experiments in iOB-Sps culture in vitro and n = 5 independent experiments in iOB-Sps transplanted in vivo. (G) Analysis of Ki67 fluorescent staining for iOBs proliferation in spheroid before and after 28-days transplantation. n = 7 independent experiments in iOB-Sps culture in vitro and n = 5 independent experiments in iOB-Sps transplanted in vivo. (H) Counting of iOBs when cultured in vitro spheroid and in vivo post transplantation. (I) Representative images and quantification analysis of GFP and IBSP positive cells in bone defects. n = 7 independent experiments in iOB-Sps culture in vitro and n = 5 independent experiments in iOB-Sps transplanted in vivo. (E)–(I) data were presented as means ± s.d. ∗ p < 0.05, ∗∗ p < 0.01, ∗∗∗ p < 0.001. One-way ANOVA with Bonferroni correction in (E); Student t-test in (F)–(I). Scale bar = 10 μm in (F) (G) (I).

    Techniques Used: Transplantation Assay, Imaging, Derivative Assay, TUNEL Assay, Staining, In Vitro, In Vivo, Cell Culture

    Enhancement of endogenous osteogenesis induced by iOB-Sps Biopsies were obtained 4 weeks after iOB-Sps transplantation into mouse femur defects. DAPI nuclear counterstain as indicated in blue, iOB-labeled GFP counterstain as indicated in green. (A) Regeneration of damaged sites shown in a panoramic view of the complete femur and in high-resolution image stained for COL1 (red). Scale bar = 500 μm in complete femur images; Scale bar = 10 μm in high-resolution images. (B) Regeneration of damaged sites shown stained for IBSP (yellow gold). Scale bar = 500 μm in complete femur images; Scale bar = 100 μm in high-resolution images. (C) Magnification of IBSP staining of the boxed area shown in (B). Scale bar = 50 μm. (D) The proportion of COL1 positive area in the total defective area. n = 4 independent experiments in untreated negative group and n = 5 independent experiments in iOB-Sps treatment group. (E) The proportion of IBSP positive area in the total defective area. n = 5 independent experiments. (D) (E) data were presented as means ± s.d. Student t-test. ∗ p < 0.05, ∗∗ p < 0.01.
    Figure Legend Snippet: Enhancement of endogenous osteogenesis induced by iOB-Sps Biopsies were obtained 4 weeks after iOB-Sps transplantation into mouse femur defects. DAPI nuclear counterstain as indicated in blue, iOB-labeled GFP counterstain as indicated in green. (A) Regeneration of damaged sites shown in a panoramic view of the complete femur and in high-resolution image stained for COL1 (red). Scale bar = 500 μm in complete femur images; Scale bar = 10 μm in high-resolution images. (B) Regeneration of damaged sites shown stained for IBSP (yellow gold). Scale bar = 500 μm in complete femur images; Scale bar = 100 μm in high-resolution images. (C) Magnification of IBSP staining of the boxed area shown in (B). Scale bar = 50 μm. (D) The proportion of COL1 positive area in the total defective area. n = 4 independent experiments in untreated negative group and n = 5 independent experiments in iOB-Sps treatment group. (E) The proportion of IBSP positive area in the total defective area. n = 5 independent experiments. (D) (E) data were presented as means ± s.d. Student t-test. ∗ p < 0.05, ∗∗ p < 0.01.

    Techniques Used: Transplantation Assay, Labeling, Staining



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    Characteristics of iOBs derived from donors with different ages . (A) Alizarin Red staining of osteoblasts derived from bMSCs (31 years), iOBs from 8-, 79-year-old donors and their parent fibroblasts after cultured in osteogenic medium for 14 days. n ≥ 3 independent experiments. Y, young referred to individuals under 65 years of age; O, old referred to individuals aged 65 years and older. Scale bar = 100 μm. (B) mRNA levels for <t>ALP,</t> <t>OCN,</t> SATB2 and <t>IBSP</t> after 14 days culture in osteogenic medium. The Y-bMSC were isolated from donors of 26-,31-,33-year-old.The Y-Fib or Y-iOBs were derived from donors of 8-,38-,39-year-old. The O-Fib or O-iOBs were derived from donors of 67-,70-,74-,75-,79-year-old. Gene expression was shown as log 2 (fold change). n ≥ 3 independent experiments. (C) Cell number of starting fibroblasts and resultant iOBs after 18 days' treating. n = 8 individuals' iOBs. (D) Schema for extent of cell expansion during iOBs conversion from skin fibroblasts. (E) The secretion of COL1 and VEGF in Y-bMSC-OB, iOBs and their parent fibroblasts. Y-bMSC-OBs in immunofluorescence images were derived from 31-year-old donors, and O-iOBs and its parent O-Fib were from 79-year-old donor. n ≥ 3 independent experiments. Scale bar = 50 μm. (F) SA-β-gal activity in Y-bMSC-OB, O-bMSC-OB, Y-iOB from a 39-year-old individual, O-iOB from a 79-year-old donor. n ≥ 3 independent experiments. Scale bar = 100 μm. (G) The secretion of IL-6 in Y-bMSC-OB, O-bMSC-OB, Y-iOBs and O-iOBs. n ≥ 3 independent experiments. (H) mRNA levels for CDKN1A and CDKN2A in osteoblasts derived from bMSCs and iOBs from young or old individuals. Gene expression was shown as log 2 (fold change). n ≥ 3 independent experiments. (A) (B) (E) (F) (G) (H) data were presented as means ± s.d. Significance was determined when samples were compared to Y-bMSC-OB or pairwise comparisons between the groups connected by lines. One-way ANOVA with Bonferroni correction. ∗ p < 0.05, ∗∗ p < 0.01.
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    Characteristics of iOBs derived from donors with different ages . (A) Alizarin Red staining of osteoblasts derived from bMSCs (31 years), iOBs from 8-, 79-year-old donors and their parent fibroblasts after cultured in osteogenic medium for 14 days. n ≥ 3 independent experiments. Y, young referred to individuals under 65 years of age; O, old referred to individuals aged 65 years and older. Scale bar = 100 μm. (B) mRNA levels for ALP, OCN, SATB2 and IBSP after 14 days culture in osteogenic medium. The Y-bMSC were isolated from donors of 26-,31-,33-year-old.The Y-Fib or Y-iOBs were derived from donors of 8-,38-,39-year-old. The O-Fib or O-iOBs were derived from donors of 67-,70-,74-,75-,79-year-old. Gene expression was shown as log 2 (fold change). n ≥ 3 independent experiments. (C) Cell number of starting fibroblasts and resultant iOBs after 18 days' treating. n = 8 individuals' iOBs. (D) Schema for extent of cell expansion during iOBs conversion from skin fibroblasts. (E) The secretion of COL1 and VEGF in Y-bMSC-OB, iOBs and their parent fibroblasts. Y-bMSC-OBs in immunofluorescence images were derived from 31-year-old donors, and O-iOBs and its parent O-Fib were from 79-year-old donor. n ≥ 3 independent experiments. Scale bar = 50 μm. (F) SA-β-gal activity in Y-bMSC-OB, O-bMSC-OB, Y-iOB from a 39-year-old individual, O-iOB from a 79-year-old donor. n ≥ 3 independent experiments. Scale bar = 100 μm. (G) The secretion of IL-6 in Y-bMSC-OB, O-bMSC-OB, Y-iOBs and O-iOBs. n ≥ 3 independent experiments. (H) mRNA levels for CDKN1A and CDKN2A in osteoblasts derived from bMSCs and iOBs from young or old individuals. Gene expression was shown as log 2 (fold change). n ≥ 3 independent experiments. (A) (B) (E) (F) (G) (H) data were presented as means ± s.d. Significance was determined when samples were compared to Y-bMSC-OB or pairwise comparisons between the groups connected by lines. One-way ANOVA with Bonferroni correction. ∗ p < 0.05, ∗∗ p < 0.01.

    Journal: Bioactive Materials

    Article Title: Engineering fibroblast with reprogramming and spheronization for bone defect repair

    doi: 10.1016/j.bioactmat.2025.04.021

    Figure Lengend Snippet: Characteristics of iOBs derived from donors with different ages . (A) Alizarin Red staining of osteoblasts derived from bMSCs (31 years), iOBs from 8-, 79-year-old donors and their parent fibroblasts after cultured in osteogenic medium for 14 days. n ≥ 3 independent experiments. Y, young referred to individuals under 65 years of age; O, old referred to individuals aged 65 years and older. Scale bar = 100 μm. (B) mRNA levels for ALP, OCN, SATB2 and IBSP after 14 days culture in osteogenic medium. The Y-bMSC were isolated from donors of 26-,31-,33-year-old.The Y-Fib or Y-iOBs were derived from donors of 8-,38-,39-year-old. The O-Fib or O-iOBs were derived from donors of 67-,70-,74-,75-,79-year-old. Gene expression was shown as log 2 (fold change). n ≥ 3 independent experiments. (C) Cell number of starting fibroblasts and resultant iOBs after 18 days' treating. n = 8 individuals' iOBs. (D) Schema for extent of cell expansion during iOBs conversion from skin fibroblasts. (E) The secretion of COL1 and VEGF in Y-bMSC-OB, iOBs and their parent fibroblasts. Y-bMSC-OBs in immunofluorescence images were derived from 31-year-old donors, and O-iOBs and its parent O-Fib were from 79-year-old donor. n ≥ 3 independent experiments. Scale bar = 50 μm. (F) SA-β-gal activity in Y-bMSC-OB, O-bMSC-OB, Y-iOB from a 39-year-old individual, O-iOB from a 79-year-old donor. n ≥ 3 independent experiments. Scale bar = 100 μm. (G) The secretion of IL-6 in Y-bMSC-OB, O-bMSC-OB, Y-iOBs and O-iOBs. n ≥ 3 independent experiments. (H) mRNA levels for CDKN1A and CDKN2A in osteoblasts derived from bMSCs and iOBs from young or old individuals. Gene expression was shown as log 2 (fold change). n ≥ 3 independent experiments. (A) (B) (E) (F) (G) (H) data were presented as means ± s.d. Significance was determined when samples were compared to Y-bMSC-OB or pairwise comparisons between the groups connected by lines. One-way ANOVA with Bonferroni correction. ∗ p < 0.05, ∗∗ p < 0.01.

    Article Snippet: The staining reagents, including antibodies, were provided in detail as follows: anti-GFP (1:600; Abcam, ab13970), anti-IBSP(1:300; reactivity with Human, Mouse; Bioss, bs-2668R), anti-OCN (1:100; reactivity with Human, Mouse; Bioss, bs-4917R), anti-Ki67 (1:200; reactivity with Human, Mouse; Invitrogen, 2747806), anti-SP7 (1:150; reactivity with Human; Abcam, ab94744), anti-RUNX2 (1:200; reactivity with Human, Mouse; santacruz, sc-390351), anti-COL1 (1:400; reactivity with Human, Mouse; Bioss, bs-0578R), anti-VEGF (1:50; reactivity with Human, Mouse; santacruz, sc-7269), human-specific anti-VEGF (prediluted; reactivity with Human; Abcam, ab27620), anti-STEM121 (1:250; reactivity with Human specific; TAKARA, Y40410) and anti-CD31 (1:400; reactivity with Human, Mouse; Immunoway, YP0530; or 1: 400; reactivity with Mouse; Servicebio, GB12063), Nrf2 (1:500; reactivity with Human、mouse、rat; Proteintech, 80593-1-RR, Lot:23013625); secondary antibodies (Invitrogen, A21235, A21244; Univ, 703-545-155, 711-165-152; Abcam, AB150159; Servicebio, GB21301).

    Techniques: Derivative Assay, Staining, Cell Culture, Isolation, Gene Expression, Immunofluorescence, Activity Assay

    Therapeutic effects of iOB-Sps on bone regeneration (A) 5 mm in the length and 1.5 mm in width femoral bone defect was created by dental drill on the right femur. Each scale of the ruler indicates 0.5 mm. (B) The preparation of iOB-Sps to fit the damaged size. (C) The transplantation of iOB-Sps into bone defect. (D) μCT imaging of the femur transplanted by Fibs, Fib-Sps, bMSCs and iOB-Sps in NOD/SCID mice with femur defect. iOB-Sps were derived from old donors, O = Old. (E) BMD, BS/TV, BV/TV, Tb. N values in bone defect healing. n = 5 independent experiments. Significance was determined when samples were compared to group Neg or pairwise comparisons between the groups connected by lines. (F) Analysis of Tunel staining for iOBs apoptosis in spheroid before and after 28-days transplantation. n = 7 independent experiments in iOB-Sps culture in vitro and n = 5 independent experiments in iOB-Sps transplanted in vivo. (G) Analysis of Ki67 fluorescent staining for iOBs proliferation in spheroid before and after 28-days transplantation. n = 7 independent experiments in iOB-Sps culture in vitro and n = 5 independent experiments in iOB-Sps transplanted in vivo. (H) Counting of iOBs when cultured in vitro spheroid and in vivo post transplantation. (I) Representative images and quantification analysis of GFP and IBSP positive cells in bone defects. n = 7 independent experiments in iOB-Sps culture in vitro and n = 5 independent experiments in iOB-Sps transplanted in vivo. (E)–(I) data were presented as means ± s.d. ∗ p < 0.05, ∗∗ p < 0.01, ∗∗∗ p < 0.001. One-way ANOVA with Bonferroni correction in (E); Student t-test in (F)–(I). Scale bar = 10 μm in (F) (G) (I).

    Journal: Bioactive Materials

    Article Title: Engineering fibroblast with reprogramming and spheronization for bone defect repair

    doi: 10.1016/j.bioactmat.2025.04.021

    Figure Lengend Snippet: Therapeutic effects of iOB-Sps on bone regeneration (A) 5 mm in the length and 1.5 mm in width femoral bone defect was created by dental drill on the right femur. Each scale of the ruler indicates 0.5 mm. (B) The preparation of iOB-Sps to fit the damaged size. (C) The transplantation of iOB-Sps into bone defect. (D) μCT imaging of the femur transplanted by Fibs, Fib-Sps, bMSCs and iOB-Sps in NOD/SCID mice with femur defect. iOB-Sps were derived from old donors, O = Old. (E) BMD, BS/TV, BV/TV, Tb. N values in bone defect healing. n = 5 independent experiments. Significance was determined when samples were compared to group Neg or pairwise comparisons between the groups connected by lines. (F) Analysis of Tunel staining for iOBs apoptosis in spheroid before and after 28-days transplantation. n = 7 independent experiments in iOB-Sps culture in vitro and n = 5 independent experiments in iOB-Sps transplanted in vivo. (G) Analysis of Ki67 fluorescent staining for iOBs proliferation in spheroid before and after 28-days transplantation. n = 7 independent experiments in iOB-Sps culture in vitro and n = 5 independent experiments in iOB-Sps transplanted in vivo. (H) Counting of iOBs when cultured in vitro spheroid and in vivo post transplantation. (I) Representative images and quantification analysis of GFP and IBSP positive cells in bone defects. n = 7 independent experiments in iOB-Sps culture in vitro and n = 5 independent experiments in iOB-Sps transplanted in vivo. (E)–(I) data were presented as means ± s.d. ∗ p < 0.05, ∗∗ p < 0.01, ∗∗∗ p < 0.001. One-way ANOVA with Bonferroni correction in (E); Student t-test in (F)–(I). Scale bar = 10 μm in (F) (G) (I).

    Article Snippet: The staining reagents, including antibodies, were provided in detail as follows: anti-GFP (1:600; Abcam, ab13970), anti-IBSP(1:300; reactivity with Human, Mouse; Bioss, bs-2668R), anti-OCN (1:100; reactivity with Human, Mouse; Bioss, bs-4917R), anti-Ki67 (1:200; reactivity with Human, Mouse; Invitrogen, 2747806), anti-SP7 (1:150; reactivity with Human; Abcam, ab94744), anti-RUNX2 (1:200; reactivity with Human, Mouse; santacruz, sc-390351), anti-COL1 (1:400; reactivity with Human, Mouse; Bioss, bs-0578R), anti-VEGF (1:50; reactivity with Human, Mouse; santacruz, sc-7269), human-specific anti-VEGF (prediluted; reactivity with Human; Abcam, ab27620), anti-STEM121 (1:250; reactivity with Human specific; TAKARA, Y40410) and anti-CD31 (1:400; reactivity with Human, Mouse; Immunoway, YP0530; or 1: 400; reactivity with Mouse; Servicebio, GB12063), Nrf2 (1:500; reactivity with Human、mouse、rat; Proteintech, 80593-1-RR, Lot:23013625); secondary antibodies (Invitrogen, A21235, A21244; Univ, 703-545-155, 711-165-152; Abcam, AB150159; Servicebio, GB21301).

    Techniques: Transplantation Assay, Imaging, Derivative Assay, TUNEL Assay, Staining, In Vitro, In Vivo, Cell Culture

    Enhancement of endogenous osteogenesis induced by iOB-Sps Biopsies were obtained 4 weeks after iOB-Sps transplantation into mouse femur defects. DAPI nuclear counterstain as indicated in blue, iOB-labeled GFP counterstain as indicated in green. (A) Regeneration of damaged sites shown in a panoramic view of the complete femur and in high-resolution image stained for COL1 (red). Scale bar = 500 μm in complete femur images; Scale bar = 10 μm in high-resolution images. (B) Regeneration of damaged sites shown stained for IBSP (yellow gold). Scale bar = 500 μm in complete femur images; Scale bar = 100 μm in high-resolution images. (C) Magnification of IBSP staining of the boxed area shown in (B). Scale bar = 50 μm. (D) The proportion of COL1 positive area in the total defective area. n = 4 independent experiments in untreated negative group and n = 5 independent experiments in iOB-Sps treatment group. (E) The proportion of IBSP positive area in the total defective area. n = 5 independent experiments. (D) (E) data were presented as means ± s.d. Student t-test. ∗ p < 0.05, ∗∗ p < 0.01.

    Journal: Bioactive Materials

    Article Title: Engineering fibroblast with reprogramming and spheronization for bone defect repair

    doi: 10.1016/j.bioactmat.2025.04.021

    Figure Lengend Snippet: Enhancement of endogenous osteogenesis induced by iOB-Sps Biopsies were obtained 4 weeks after iOB-Sps transplantation into mouse femur defects. DAPI nuclear counterstain as indicated in blue, iOB-labeled GFP counterstain as indicated in green. (A) Regeneration of damaged sites shown in a panoramic view of the complete femur and in high-resolution image stained for COL1 (red). Scale bar = 500 μm in complete femur images; Scale bar = 10 μm in high-resolution images. (B) Regeneration of damaged sites shown stained for IBSP (yellow gold). Scale bar = 500 μm in complete femur images; Scale bar = 100 μm in high-resolution images. (C) Magnification of IBSP staining of the boxed area shown in (B). Scale bar = 50 μm. (D) The proportion of COL1 positive area in the total defective area. n = 4 independent experiments in untreated negative group and n = 5 independent experiments in iOB-Sps treatment group. (E) The proportion of IBSP positive area in the total defective area. n = 5 independent experiments. (D) (E) data were presented as means ± s.d. Student t-test. ∗ p < 0.05, ∗∗ p < 0.01.

    Article Snippet: The staining reagents, including antibodies, were provided in detail as follows: anti-GFP (1:600; Abcam, ab13970), anti-IBSP(1:300; reactivity with Human, Mouse; Bioss, bs-2668R), anti-OCN (1:100; reactivity with Human, Mouse; Bioss, bs-4917R), anti-Ki67 (1:200; reactivity with Human, Mouse; Invitrogen, 2747806), anti-SP7 (1:150; reactivity with Human; Abcam, ab94744), anti-RUNX2 (1:200; reactivity with Human, Mouse; santacruz, sc-390351), anti-COL1 (1:400; reactivity with Human, Mouse; Bioss, bs-0578R), anti-VEGF (1:50; reactivity with Human, Mouse; santacruz, sc-7269), human-specific anti-VEGF (prediluted; reactivity with Human; Abcam, ab27620), anti-STEM121 (1:250; reactivity with Human specific; TAKARA, Y40410) and anti-CD31 (1:400; reactivity with Human, Mouse; Immunoway, YP0530; or 1: 400; reactivity with Mouse; Servicebio, GB12063), Nrf2 (1:500; reactivity with Human、mouse、rat; Proteintech, 80593-1-RR, Lot:23013625); secondary antibodies (Invitrogen, A21235, A21244; Univ, 703-545-155, 711-165-152; Abcam, AB150159; Servicebio, GB21301).

    Techniques: Transplantation Assay, Labeling, Staining

    Fig. 5 Validation of the effect of ETS2 on osteosarcoma progression in vitro. A The expression level of ETS2 was higher in Saos2 and 143B compared to hFOB1.19. B–E Functional assays for silencing and overexpression of ETS2. F, G Transwell migration and invasion assays for silencing of ETS2. H, I Transwell migration and invasion assay for overexpression of IBSP. J Immunohistochemical staining of osteosarcoma tissues confirms ETS2 expression. K The Kaplan-Meier curve for ETS2 (*p < 0.05, **p < 0.01, ***p < 0.001)

    Journal: BMC medicine

    Article Title: Single-cell and spatial transcriptomics reveal metastasis mechanism and microenvironment remodeling of lymph node in osteosarcoma.

    doi: 10.1186/s12916-024-03319-w

    Figure Lengend Snippet: Fig. 5 Validation of the effect of ETS2 on osteosarcoma progression in vitro. A The expression level of ETS2 was higher in Saos2 and 143B compared to hFOB1.19. B–E Functional assays for silencing and overexpression of ETS2. F, G Transwell migration and invasion assays for silencing of ETS2. H, I Transwell migration and invasion assay for overexpression of IBSP. J Immunohistochemical staining of osteosarcoma tissues confirms ETS2 expression. K The Kaplan-Meier curve for ETS2 (*p < 0.05, **p < 0.01, ***p < 0.001)

    Article Snippet: The slides were placed in a repair box containing sodium citrate repair solution and then subjected to antigen retrieval in a 100 °C water bath for 20 min. Rabbit-derived anti-IBSP antibody (1:400, Proteintech, China) and anti-ETS2 antibody (1:500, Proteintech, China) were incubated overnight at 4 °C.

    Techniques: Biomarker Discovery, In Vitro, Expressing, Functional Assay, Over Expression, Migration, Invasion Assay, Immunohistochemical staining, Staining

    Fig. 6 In vitro experiments validate the effect of IBSP combined with ETS2 on osteosarcoma. A, B Histogram of IBSP expression upon silencing of ETS2. C, D Histogram of IBSP expression upon overexpression of ETS2. E-H Migration and invasion assays for NC, oe-ETS2, si-IBSP, and oe-ETS2 + si-IBSP (*p < 0.05, **p < 0.01, ***p < 0.001)

    Journal: BMC medicine

    Article Title: Single-cell and spatial transcriptomics reveal metastasis mechanism and microenvironment remodeling of lymph node in osteosarcoma.

    doi: 10.1186/s12916-024-03319-w

    Figure Lengend Snippet: Fig. 6 In vitro experiments validate the effect of IBSP combined with ETS2 on osteosarcoma. A, B Histogram of IBSP expression upon silencing of ETS2. C, D Histogram of IBSP expression upon overexpression of ETS2. E-H Migration and invasion assays for NC, oe-ETS2, si-IBSP, and oe-ETS2 + si-IBSP (*p < 0.05, **p < 0.01, ***p < 0.001)

    Article Snippet: The slides were placed in a repair box containing sodium citrate repair solution and then subjected to antigen retrieval in a 100 °C water bath for 20 min. Rabbit-derived anti-IBSP antibody (1:400, Proteintech, China) and anti-ETS2 antibody (1:500, Proteintech, China) were incubated overnight at 4 °C.

    Techniques: In Vitro, Expressing, Over Expression, Migration