Fig 1.
The chemical structures of C-5-substituted 2,4-diaminoquinazoline DcpS inhibitors used in this study.
The active DAQ-DcpSi compounds are RG3039 and PF-06738066 and their inactive 7-methyl analogues are PF-06802336 and PF-0683234, respectively. DcpS inhibition activity (IC50) and cLogP for each compound are provided. Values represent the mean of two or more independent assays.
Fig 2.
Effect of DcpS knockdown on putative DcpS-sensitive genes in stable clones of lentivirus-infected HEK-293 cells.
Western blot (A) and transcript (B) analysis of DcpS lentiviral HEK293T knockdown clones. C. and D., Transcripts of putative DcpS-sensitive genes. All numerical data are shown as mean ± s.e.m. and where not shown error bars are within the size of the symbols. Levels of statistical significance were noted as P<0.05 (*), P<0.01(**), P<0.001(***), P<0.0001(****).
Fig 3.
Effect of active DAQ-DcpSi and their 7-methyl analogues on PAQR8 and DPM3 transcripts.
SMA-derived lymphoblasts were treated with active DAQ-DcpSi (RG3039, PF-06738066) or their 7-methyl analogues (PF-06802336 and PF-06832344 respectively) and the levels of PAQR8 and DPM3 transcripts measured using ddPCR. All data shown as mean ± s.e.m. and where not shown error bars are within the size of the symbols. Significant P-values were denoted as P<0.05 (*), P<0.01(**), P<0.001(***), P<0.0001(****).
Fig 4.
Effect of RG3039 on SMN transcripts.
HEK-293T cells were treated with the indicated concentrations of RG3039 for various periods of time (4, 8 or 24hr) before the levels of SMN transcripts were measured using ddPCR. All data shown as mean ± s.e.m. and where not shown error bars are within the size of the symbols.
Fig 5.
Effect of active DAQ-DcpSi and their 7-methyl analogues on SMN transcripts over time.
SMA-derived lymphoblasts were treated with active DAQ-DcpSi (RG3039, PF-06738066) or their 7-methyl analogues (PF-06802336 and PF-06832344 respectively) and the levels of SMN transcripts measured using ddPCR. All data shown as mean ± s.e.m. and where not shown error bars are within the size of the symbols.
Fig 6.
Effect of RG3039 on cellular SMN protein levels determined by Western blot.
A. Neural progenitor cells treated for 48 hours (example) and B. quantification of data from 4 independent experiments; C. Fibroblasts treated for 72 hours (example) and D. quantification of data from 3 independent experiments; E. Fibroblasts treated for 6 days (example); F. SMA lymphoblasts treated for 72 hours (example). DMSO final concentration for lymphoblast cells was 0.1% and 0.2% for neural progenitors and fibroblast cell lines. All aggregate data is expressed as mean ± s.e.m. and statistical significance vs. SMA DMSO (B.) or 3813 DMSO controls (D) was assessed using Student’s t-test: P<0.05 (*), P<0.01(**) or otherwise non-significant where not indicated.
Fig 7.
Effect of DAQ-DcpSi on luciferase activity driven by either the SMN2 promoter and SMN splicing cassette (filled triangles) or CMV promoter (open triangles).
All data shown as mean ± range of duplicate determinations for a representative experiment of two performed which gave very similar results. Where not shown, error bars are within the size of the symbols.
Fig 8.
Volcano plots of differentially regulated genes detected by RNA-Seq analysis of N2a cells treated with RG3039 or its 7-methyl analog PF-06802336 with summary of number of genes significantly (P<0.05) changed.
Plates of cells (in quadruplicate) were treated with 1 μM of either compound or DMSO (1 μM) for 24 hours before isolation of polyA RNA and RNA Seq analysis. In each case, the—Log10 of the corrected P value for the difference between compound- and DMSO-treated samples for each detectable gene was plotted vs the Log2 of the fold difference. The table summarizes the numbers of significantly (P<0.05) differentially-regulated genes irrespective of the fold change and as a percentage of the total numbers of genes detectable. A total of 18,409 genes were detectable.
Fig 9.
Effect of DAQ-DcpSi on survival and body weight of 2B/- SMA mice.
RG3039 (6 mg/kg) or PF-06738066 (10mg/kg) were dosed b.i.d. via intraperitoneal injection using a dosing volume of 2.5 μl/g and controls received an equal volume of vehicle. Healthy 2B/+ littermate controls dosed with vehicle were included for comparison. Data presented represent combined sexes for RG3039 (n = 20); vehicle (n = 21), PF-06738066 (n = 21) and vehicle treated healthy 2B/+ littermates (n = 24). All data shown as mean ± s.e.m. and where not shown error bars are within the size of the symbols. RG3039 and PF-06738066 had a significant beneficial effect on survival of SMA mice compared to vehicle SMA mice (P < 0.0001 by either Mantel-Cox or Gehan-Breslow-Wilcoxon tests). RG3039 had a slightly greater effect on survival than PF-06738066 (P < 0.05 by either test).
Fig 10.
Effect of DAQ-DcpSi on the performance of 2B/- SMA mice in a combined 55° negative geotaxis/ climb test.
Data presented represent combined sexes for RG3039 (n = 20); vehicle (n = 21), PF-06738066 (n = 21) and vehicle treated healthy 2B/+ littermates (n = 24). The percent of mice able to pass the 55° negative geotaxis and climb tests simultaneously is shown. At P16, while a predominant number of vehicle treated SMA were alive, PF-06738066 or RG3039 showed improvement over vehicle SMA mice that did not reach statistical significance (Fisher’s exact test, P-value = 0.0708; 43% power to detect a benefit amongst SMA groups).
Fig 11.
Effect of DAQ-DcpSi treatment on Smn transcript levels in tissues from 2B/- SMA mice and healthy 2B/+ littermate controls.
Animals were dosed with either vehicle, RG3039 (6 mg/kg) or PF-06738066 (10 mg/kg) BID via intraperitoneal injection from P4-P16 and were sacrificed 12 hours following the last dose for collection of tissues. RNA was prepared and analyzed using ddPCR as described in materials and methods. All gene expression was normalized to PSMD14 expression and expressed relative to that in vehicle-treated 2B/- mice. All data shown as mean ± s.e.m. Numbers of animals in each data set were: 2B/- Vehicle (22); 2B/- RG3039(9); 2B/- PF-06738066 (13); 2B/+ Vehicle (7); 2B/+ RG3039(9); 2B/+ PF-06738066 (10). Significance using Student’s t-test: P<0.05 (*), P<0.01(**), P<0.001(***), P<0.0001(****).
Fig 12.
Smn protein levels in spinal cord and muscle tissue from 2B/- SMA mice or 2B/+ healthy littermates treated with either vehicle, RG3039, or PF-06738066.
Tissues were collected as described in Materials and Methods. Data is expressed as mean s.e.m. and statistical significance was evaluated using One-way ANOVA and Dunnett's multiple comparisons test. Tukey post-hoc tests were utilized to determine significance among the groups. P<0.05 (*), P<0.01(**), P<0.001(***), P<0.0001(****).
Fig 13.
Volcano plots of differentially regulated genes detected by RNA-Seq analysis of spinal cord tissues from 2B/- SMA mice or 2B/+ healthy littermates treated with RG3039 or vehicle.
The table (E.) summarizes the number of significantly (P<0.05) differentially-regulated genes irrespective of the fold change for the various comparisons and as a percentage of the total numbers of genes detectable. Upregulated is defined such that the first condition in the comparison caused upregulation relative to the second e.g. 3,041 genes were upregulated by RG3039 treatment of SMA mice in comparison to vehicle-treated SMA mice. For all the comparisons the total number of detectable genes was between 20,514 and 20,517.