Figures and data
Generation and characterization of iPSC lines from patients with HDLS
A) Schematic representation of the generation of patient-derived induced pluripotent stem cells (iPSC) from dermal fibroblasts, and the subsequent generation of isogenic controls via gene editing with CRISPR/Cas9. B) Sequencing of the genomic CSF-1R locus in donor-derived iPSC displaying mutant allele or genetically edited allele in isogenic control cell lines. C) Phase-contrast microscopy of mature reprogrammed iPSC colonies displaying typical hESC morphology. Scale bar represents 250 uM. D) Immunofluorescence imaging of iPSC colonies for the pluripotency markers SOX2, OCT4, TRA-1-60 and SSEA-4. Scale bar represents 150 uM and 100 uM for left and right panel respectively. E) Cytogenetic analysis of mutant and genetically edited iPSC clones showing a normal karyotype.
A) Human dermal fibroblast outgrowth from skin biopsies after three weeks of culture. B) Phase-contrast microscopy of emerging immature iPSC clones after reprogramming. C) Sequencing of genomic CSF1R locus displaying off-target events (OTE) analysis for IsoHD1 and IsoHD2 iPSC cell lines.
Generation and characterization of patient iPSC-derived macrophages
A) Schematic representation of the derivation of primitive macrophages from donor-derived iPSC. B) iMacrophage (iMac) yields across all cell line variants. C) Flow cytometry analysis of iPSC and iMac expression of macrophage surface markers CD45 and CD14. D) Morphology of iMac visualized by Giemsa staining (left panel), and confocal imaging (middle panel); and internalization of PE-conjugated beads visualized by confocal imaging. Scale bar represents 30 uM. E) Uptake of pHrodo-labeled beads by iMac in the presence and absence of cytochalasin D (Cyto D). F) Cell viability of iMacs used to determine CSF1 sensitivity via an MTT assay, after incubating with varying concentrations of CSF1 for seven days. Data are presented as mean ±SEM.
Mutant and isogenic control iMacs have distinct gene expression profiles
A and D) PCA analysis, B and E) volcano plots and C and F) GO analysis, of mutant and isogenic iMac derived from HD1 and HD2 differentially expressed genes (DEGs) respectively. Representative curve of ECAR (G, O) and their respective quantified data (H-J, P-R) are shown. Representative curve of OCR (K, S) and their respective quantified data (L-N, T-V) are shown. Real-time assessment of bioenergetic profile between mutant and isogenic HD1 iMac, measured using extracellular flux assay and a mitochondrial stress test. The following glycolytic parameters were calculated based on ECAR: B) glycolysis, C) glycolytic capacity, D) glycolytic reserve. Data shown as means + SEM, n=9. The following parameters were calculated based on OCR: F) basal, G) ATP production and H) maximal respiration. 2-DG = 2-deoxy-glucose, FCCP = carbonyl cyanide 4-trifluoromethoxy-phenylhydrazone. (n=3) Data are presented as mean ± SEM.
Cytokine profiling of iMacs saw upregulated levels of IL-1β when probed with apoptotic neuronal cells
(A-B) Levels of transcription of pro- and anti-inflammatory cytokine genes (IFNg, TNFa, IL-1b, IL-6, IL-18, IL-10, IL-12 and TGFb) quantified by qPCR. (+uv depicts UV-treated, -uv depicts non-UV treated). n=3 per cell line. Data are presented as mean ±SEM.
A) CFSE-labeled SH-SY5Y cells were either UV-treated (red) or untreated (blue) then after 24 hours were incubated with Annexin V/PE to determine the induction of apoptosis. Annexin V labeling was measured by flow cytometry (top panel) and visualized by fluorescence microscopy (bottom panel). B) Percentage of CD45+ cells in iMac cultures from HD1 (top row) and HD2 (bottom row) that took up apoptotic SH-SY5Y cells, with cytochalasin D used as a negative control. Data are presented as mean ±SEM. Scale bar represents 30 uM.
iMac differentiate into microglia-like cells in coculture with forebrain organoids
Schematic diagram of co-culture between Day 31 iMac and forebrain organoid. B) Forebrain organoids depicted before, during and after co-culture with iMacs. Day 31 isogenic forebrain organoids derived from the respective donor iPSC cell line were cocultured with the same isogenic- and mutant-cell-line-derived Day 31 iMacs. 30,000 iMacs were cocultured with each respective organoid derived from HD1 and HD2. Figure shows matured organoids before and after the addition of iMacs during coculture. C) Three-dimensional visualization of co-cultured brain organoids after 23 days. Neurons were labeled for NESTIN and NPCs for SOX2. Microglia-like cells (IBA-1+) were visualized on the surface of organoids. D) Flow cytometry analysis of neurons, NPCs, and macrophage populations within forebrain organoids after 23 days of coculture. E-F) Donor-derived iMacs in forebrain co-cultures undergo distinct changes in gene expression as observed in PCA analysis (E and H), volcano plots (F and I) and GO analysis (G and J) in both HD1 and HD2 variants. Scale bar represents 200 µM.
A) Progression of forebrain organoid development across 30 days. Cells were initially seeded singly before the formation of embryoid bodies (EB) was observed after 2-3 days. Healthy EBs grew and matured, as seen by the formation of distinct neural epithelium in the organoids between Days 12 and 30. Scale bar represents 200 uM. B) Immunofluorescence imaging of neuroepithelial rosette (red, SOX2+) in Day 13 organoid. Developmental cues further supported the formation and expansion of the organoid to develop neuroepithelial tubes or rosettes, which contain predominantly neural stem cells (NPCs) that mimic the developing embryonic human cerebral cortex. C) Three-dimensional visualization of non-co-cultured brain organoids (Day 23). Neurons were labeled for NESTIN (green, cytoplasm) while the NPCs were labeled for SOX2 (red, cytoplasm). Microglia-like cells (IBA1+, white) were not identified, indicating the lack of formation of innately developing microglia. Scale bar represents 200 µM.
Co-culture results in impaired regulation of neurons within organoids
A) Size of HD1 and HD2 organoids measured before and after co-culture with mutant and isogenic iMacs in both HD1 and HD2 variants. B) The effects of co-culture on neuronal populations in HD2 organoids after 23 days. C) Transcriptomic analysis of co-cultured neurons and NPCs from HD2 organoids after 23 days. Data are presented as mean ±SEM.
Demographics of HDLS patients
Primer list used for qPCR
Reagents list
Cell culture medium
