![Figure 1. Hdac8 contributes to HSC homeostasis and long-term CFC activity. (A) Relative expression levels of Hdac8 messenger RNA (mRNA) in sorted phenotypic HSPC and lineage populations (n = 2-7) assessed by SYBR Green–based quantitative reverse transcription polymerase chain reaction assays. Shown is the relative expression level (mean ± standard error of the mean [SEM]) for Hdac8 mRNA normalized to the Hprt mRNA expression level. (B) Schematic of experimental design (left). Mx1-Cre/Hdac8f/f(y) or controls (WT, Hdac8f/f(y), or Mx1-Cre) were injected with 7 doses (14 mg/kg) of poly (I:C) to induce the expression of Cre. Phenotypic analysis of HSPCs and CFC assays were performed 6 weeks after induction. Hdac8 protein levels in induced Mx1-Cre/Hdac8f/f(y) (Hdac8Δ/Δ) or control (Ctrl) BM cells shown by western blotting using Hdac8 specific antibody (right). (C) Frequency of various lineage populations in 2- to 3-month-old Hdac8Δ/Δ (n = 7) or Ctrl (n = 15) BM assessed by fluorescence-activated cell sorting. (D) Frequency of LT-HSC, short-term HSC (ST-HSC), and MPP subsets in Hdac8Δ/Δ (n = 10) or Ctrl (n = 13-19) BM. (E) Frequency of LSK, myeloid/erythroid progenitor populations in Hdac8Δ/Δ (n = 10) or Ctrl (n = 13-19) BM. (F) Number of CFU-Cs derived from Hdac8Δ/Δ or Ctrl BM cells (1 × 104 cells) in serial replating assays every 7 days. Shown is mean ± SEM with triplicates from 2 independent experiments. (G) The percentage of CFU-GEMM, CFU-GM, and BFUE colony types determined based on morphology. Shown is mean ± SEM with triplicates from 2 independent experiments. (H) Number of pre-B CFU-Cs derived from Hdac8Δ/Δ or Ctrl BM cells (1 × 104 cells). Shown is mean ± SEM. *P < .05, **P < .01, ***P < .001.](https://ash.silverchair-cdn.com/ash/content_public/journal/blood/130/24/10.1182_blood-2017-03-771386/4/blood771386f1.jpeg?Expires=1724277186&Signature=uOE8wSWx5rd8L0VIxhwFojKF4ZO0gD3SDr-IpYq6kyzt9u3KumcIrAzjUBiZfO4~xdzk-nmR7jY0vLefNrhB2Z024QwxNN3fWgAQdpF41~lWjFyWnH3lVvHOvNL3Yh4Cj3ha-p6SPKToDQrYDc9Gpt6d~SAckCrndZuB8HsF3hUxCUncBURcufC6~qBMbMMsZgTbiKsZHVA1oRBw5IjMVR7wym2Mg6QTZRWixc-AoVBmtk1hRGwV~3lDqXyt3-~3d49OtNZsR4YUwot-qYupVw3mLLPyPv44SZbJLxvfqi2xO7py85BX6l~wfr0-CVX~JC0PPrEbbM7vsrvd6ML1dQ__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA)
Hdac8 contributes to HSC homeostasis and long-term CFC activity. (A) Relative expression levels of Hdac8 messenger RNA (mRNA) in sorted phenotypic HSPC and lineage populations (n = 2-7) assessed by SYBR Green–based quantitative reverse transcription polymerase chain reaction assays. Shown is the relative expression level (mean ± standard error of the mean [SEM]) for Hdac8 mRNA normalized to the Hprt mRNA expression level. (B) Schematic of experimental design (left). Mx1-Cre/Hdac8f/f(y) or controls (WT, Hdac8f/f(y), or Mx1-Cre) were injected with 7 doses (14 mg/kg) of poly (I:C) to induce the expression of Cre. Phenotypic analysis of HSPCs and CFC assays were performed 6 weeks after induction. Hdac8 protein levels in induced Mx1-Cre/Hdac8f/f(y) (Hdac8Δ/Δ) or control (Ctrl) BM cells shown by western blotting using Hdac8 specific antibody (right). (C) Frequency of various lineage populations in 2- to 3-month-old Hdac8Δ/Δ (n = 7) or Ctrl (n = 15) BM assessed by fluorescence-activated cell sorting. (D) Frequency of LT-HSC, short-term HSC (ST-HSC), and MPP subsets in Hdac8Δ/Δ (n = 10) or Ctrl (n = 13-19) BM. (E) Frequency of LSK, myeloid/erythroid progenitor populations in Hdac8Δ/Δ (n = 10) or Ctrl (n = 13-19) BM. (F) Number of CFU-Cs derived from Hdac8Δ/Δ or Ctrl BM cells (1 × 104 cells) in serial replating assays every 7 days. Shown is mean ± SEM with triplicates from 2 independent experiments. (G) The percentage of CFU-GEMM, CFU-GM, and BFUE colony types determined based on morphology. Shown is mean ± SEM with triplicates from 2 independent experiments. (H) Number of pre-B CFU-Cs derived from Hdac8Δ/Δ or Ctrl BM cells (1 × 104 cells). Shown is mean ± SEM. *P < .05, **P < .01, ***P < .001.
