Rahul Agrawal’s research while affiliated with SickKids and other places

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Publications (1)

Figure 1. Pluripotency characterization of induced pluripotent stem cells (iPSCs) from the patient with an ELN variant (ELN1). A, iPSCs stained positive for pluripotency markers OCT (octamer-binding transcription factor)-4, NANOG, and TRA-1-60. Nuclei were stained with 4′,6-diamidino-2-phenylindole (DAPI). B, Endogenous pluripotency genes were upregulated following successful reprogramming of ELN (elastin)-1 iPSCs as detected by reverse transcription-quantitative polymerase chain reaction (RT-qPCR) and comparable to pluripotency gene expression in human embryonic stem cells, H9. C, ELN1 iPSCs differentiated in vitro into all 3 germ layers. Immunocytochemistry showed nestin expression as an example of neuronal ectoderm, SMA (smooth muscle actin) expression for mesoderm, and AFP (α-fetoprotein) expression for endoderm. D, Normal G banding karyotype of ELN1 iPSCs. Results are shown as means and standard deviations from 3 independent replicates for each gene.
Figure 2. Abnormal smooth muscle cell (SMC) differentiation, proliferation and function in elastin insufficiency (EI) induced pluripotent stem cells (iPSC)-SMCs. A, Smooth muscle marker 22α (SM22α) staining (representative images) and (B) quantification by high content imaging revealed the percentage of SM22α positive cells was lower in all patient with Williams syndrome (WS) and in ELN (elastin) patient SMCs compared with control SMCs. C, SMC proliferation measured by cell impedance (representative graph of cell index), and (D) quantification revealed increased proliferation in all 3 WS SMCs and in ELN1 patient SMCs compared to control SMCs. ELN2 patient SMC proliferation was not different from control SMCs. E, Calcium flux in response to endothelin (representative graph from 50 cells from an individual well) and (F) quantification from all replicates of maximum peak of mean fluorescence intensity after background correction (F-F 0 ) showed lower calcium flux in response to endothelin in all patient SMCs compared with control SMCs (n=3 independent biological replicates and 3 technical replicates each for differentiation, proliferation, and calcium assays). G, Biowires generated from iPSC-SMCs from one control (CT1), one WS (WS2), and one ELN mutant patient (ELN1) showed failure of compaction of patient SMCs compared to control SMCs on day 6. H, Graph shows the change in the diameter of SMC-seeded biowires from day 1 to 6. All biowires showed some compaction by day 6, and the biowire diameter on day 6 remained significantly larger in WS2 and ELN1 patients compared to CT1 control. I, Passive tension at baseline was lower in patient SMC biowires compared with control. J, Active tension following treatment with endothelin was lower in patient SMC biowires compared to control (n=3 independent experiments). A-J, Supporting data are included in Table IIIA in the Data Supplement. *P<0.05, patient vs control, łP<0.05, day 6 vs 1.
Figure 3. ELN expression was decreased in elastin insufficiency (EI) induced pluripotent stem cells (iPSC)-smooth muscle cells (SMCs). A, ELN mRNA expression by reverse transcription-quantitative polymerase chain reaction (RT-qPCR) was 20%-46% lower in patient iPSCSMCs compared with all control SMCs. B, Parallel reaction monitoring mass spectrometry of the sum of peak area of 4 normalized elastin peptides showed lower elastin formation in all patient iPS-SMCs compared to controls (not statistically significant for ELN2). C, Quantification of 3 elastin peptides upstream of the elastin variants and one elastin peptide downstream of the elastin variants showed lower abundance of both upstream and downstream peptides in all patient cells (n=3 independent experiments). *P<0.05, patient vs control SMCs; †P<0.05, patient vs control SMCs for fourth peptide only. WS indicates Williams syndrome.
Figure 4. Phenotypic rescue by rapamycin. A, Heat map of RNA sequencing data from 5 patient induced pluripotent stem cells (iPSC)-smooth muscle cells (SMCs). Supervised hierarchical clustering showing raw fold difference in gene expression between dimethyl sulfoxide (DMSO) and corresponding rapamycintreated SMCs for genes associated with SMC differentiation, SMC proliferation, and SMC contraction (P<0.05 between rapamycin vs DMSO-treated SMCs). Positive values indicate upregulation and negative values indicate downregulation compared to untreated SMCs. B, Elastin expression measured by mass spectrometry in 3 independent experiments increased in all patient SMCs after treatment with rapamycin. C, Transmission electron microscopy of patient smooth muscle biowires treated with DMSO or rapamycin. SMC maturation was observed after rapamycin treatment with the appearance of myofilaments (arrows and insets) and an elongated cell shape. D, The length to width ratio of the SMCs was higher in rapamycin compared to DMSO-treated biowires. E, Biowires treated with rapamycin showed greater compaction compared to DMSO-treated biowires by day 6. F, Comparison of tissue width from day 1 to 6 showed that both patient biowires showed compaction by day 6, but the compaction was greater in the rapamycin-treated compared to DMSO-treated biowires (*P<0.05, DMSO vs rapamycin-treated biowires, łP<0.05, day 6 vs 1; (n=3 independent experiments). WS indicates Williams syndrome.
Figure 5. Effect of candidate drugs on smooth muscle cell (SMC) differentiation, proliferation, and calcium flux. A-C, mTOR (mammalian target of rapamycin) inhibitors. A, The percentage of smooth muscle marker 22α (SM22α) positive cells measured by high content imaging showed that dimethyl sulfoxide (DMSO)-treated elastin insufficiency (EI) patient SMCs express 50%-70% SM22α (black dots) similar to untreated patient cells (blue) in contrast to 80%-90% expressed in control SMCs (gray). Rapamycin (dark red), everolimus (orange), and temsirolimus (yellow) increased % of SM22α positive cells in all patients when compared to DMSO treatment (black). AZD0857 (brown) only increased SMC differentiation in Williams syndrome (WS) patient SMCs. B, All 4 mTOR inhibitors decreased SMC proliferation in all WS and in ELN (elastin)-1 cells. ELN2 cells were not hyperproliferative and did not show any further change in proliferation with mTOR inhibitors. C, Endothelin-induced calcium flux was increased by everolimus in WS1, WS2, ELN1, and ELN2-SMCs compared with DMSO-treated cells. Rapamycin only improved calcium flux in two patients (WS2, ELN2), temsirolimus in 3 patients (WS1, ELN1, ELN2), and AZD0857 in 1 patient (WS2). WS3 did not respond to any mTOR inhibitor. D-F, Calcium channel blockers. D, Verapamil (dark green) and diltiazem (bright green) increased % of SM22α positive cells only in 3 and 2 WS patients, respectively, but not in elastin mutation patients. E, Verapamil and diltiazem decreased SMC proliferation only in 3 and 2 WS patients, respectively, not in elastin mutation patients. Amlodipine (military green) treatment was associated with cell death (data not shown). F, Verapamil and diltiazem improved endothelin-induced calcium flux only in ELN2 patient SMCs (n=3 independent experiments, using 3 technical replicates for each experiment). A-F, Supporting data are shown in Table IIIB in the Data Supplement. *P<0.05, drug treatment vs DMSO. Downloaded from http://ahajournals.org by on March 26, 2020
Everolimus Rescues the Phenotype of Elastin Insufficiency in Patient Induced Pluripotent Stem Cell–Derived Vascular Smooth Muscle Cells
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March 2020

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320 Reads

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14 Citations

Arteriosclerosis Thrombosis and Vascular Biology

Caroline Kinnear

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Rahul Agrawal

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Caitlin Loo

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Objective Elastin gene deletion or mutation leads to arterial stenoses due to vascular smooth muscle cell (SMC) proliferation. Human induced pluripotent stem cells–derived SMCs can model the elastin insufficiency phenotype in vitro but show only partial rescue with rapamycin. Our objective was to identify drug candidates with superior efficacy in rescuing the SMC phenotype in elastin insufficiency patients. Approach and Results SMCs generated from induced pluripotent stem cells from 5 elastin insufficiency patients with severe recurrent vascular stenoses (3 Williams syndrome and 2 elastin mutations) were phenotypically immature, hyperproliferative, poorly responsive to endothelin, and exerted reduced tension in 3-dimensional smooth muscle biowires. Elastin mRNA and protein were reduced in SMCs from patients compared to healthy control SMCs. Fourteen drug candidates were tested on patient SMCs. Of the mammalian target of rapamycin inhibitors studied, everolimus restored differentiation, rescued proliferation, and improved endothelin-induced calcium flux in all patient SMCs except 3 Williams syndrome. Of the calcium channel blockers, verapamil increased SMC differentiation and reduced proliferation in Williams syndrome patient cells but not in elastin mutation patients and had no effect on endothelin response. Combination treatment with everolimus and verapamil was not superior to everolimus alone. Other drug candidates had limited efficacy. Conclusions Everolimus caused the most consistent improvement in SMC differentiation, proliferation and in SMC function in patients with both syndromic and nonsyndromic elastin insufficiency, and offers the best candidate for drug repurposing for treatment of elastin insufficiency associated vasculopathy

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Citations (1)

... For example, the mTOR inhibitor everolimus improves in vitro smooth muscle cell differentiation of stem cells derived from individuals with elastin insufficiency because of ELN mutations. 66 Our results suggest that targeting DD with everolimus is a compelling topic of future research. ...

Reference:

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Everolimus Rescues the Phenotype of Elastin Insufficiency in Patient Induced Pluripotent Stem Cell–Derived Vascular Smooth Muscle Cells

Arteriosclerosis Thrombosis and Vascular Biology

Caroline Kinnear

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Rahul Agrawal

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Caitlin Loo

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[...]

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