S-LDSC Asthma Analysis
I applied Stratified Linkage Disequilibrium Score Regression (S-LDSC) to summary statistics from Han et al.'s meta-GWAS of asthma1.
Reference Data Sources
I used the standard reference datasets recommended and preprocessed by the authors of the S-LDSC method.
- The GTEx Project
- The Franke lab dataset
- The Roadmap Epigenetic Project
- The Corces et al. ATAC-seq dataset of 13 blood cell types.
- The ImmGen Project
- The Cahoy Mouse Central Nervous System Dataset
Results
GTEx and Franke lab tissue expression data
The results are plotted below
The table below shows the tissue/cell types with the lowest p values.
| Name | Coefficient | Coefficient_P_value | Reject Null |
|---|---|---|---|
| A11.118.637.555.567.569.T.Lymphocytes | 1.7136e-08 | 1.79629e-06 | True |
| A15.145.229.637.555.567.569.200.CD4.Positive.T.Lymphocytes | 1.09652e-08 | 3.90918e-05 | True |
| A15.382.520.604.700.Spleen | 1.19426e-08 | 0.00010796 | True |
| A02.835.583.443.800.800.Synovial.Fluid | 1.28336e-08 | 0.000122159 | True |
| A15.145.229.Blood.Cells | 1.17864e-08 | 0.000122277 | True |
| A15.382.490.555.567.Lymphocytes | 1.21767e-08 | 0.000125171 | True |
| A11.118.637.555.567.569.200.700.T.Lymphocytes..Regulatory | 1.01439e-08 | 0.000130168 | True |
| A15.382.490.555.567.537.Killer.Cells..Natural | 1.1958e-08 | 0.000343613 | True |
| A15.145.Blood | 1.10734e-08 | 0.000367411 | True |
| Spleen | 7.89811e-09 | 0.000682061 | False |
| A10.549.Lymphoid.Tissue | 1.19797e-08 | 0.000759795 | False |
| A15.145.229.637.555.Leukocytes..Mononuclear | 1.02734e-08 | 0.000826575 | False |
| A15.382.490.555.567.622.Lymphocytes..Null | 9.92795e-09 | 0.000963336 | False |
| A11.118.637.Leukocytes | 8.50474e-09 | 0.00106547 | False |
| A10.549.400.Lymph.Nodes | 9.3136e-09 | 0.00116527 | False |
| A03.556.249.124.Ileum | 1.06525e-08 | 0.00264645 | False |
| A03.556.124.684.Intestine..Small | 9.03662e-09 | 0.00267725 | False |
| A15.378.316.580.Monocytes | 6.43006e-09 | 0.00493671 | False |
| A02.165.Cartilage | 5.82729e-09 | 0.0057413 | False |
| Esophagus_Muscularis | 5.82619e-09 | 0.00759493 | False |
| Whole_Blood | 7.87232e-09 | 0.00966815 | False |
These results are consistent with the well-known immunological nature of asthma
Roadmap Chromatin data
I next applied S-LDSC to the asthma GWAS using reference data generated by Finucane et al.2 from the Roadmap Epigenetics Project.
The following graph and table show the results:
| Name | Coefficient | Coefficient_P_value | Reject Null |
|---|---|---|---|
| Primary_T_helper_17_cells_PMA-I_stimulated__H3K4me1 | 2.28473e-07 | 1.25164e-09 | True |
| Primary_T_regulatory_cells_from_peripheral_blood__H3K4me1 | 1.65076e-07 | 1.77049e-09 | True |
| Primary_T_helper_memory_cells_from_peripheral_blood_2__H3K4me1 | 1.52561e-07 | 9.40009e-08 | True |
| Primary_T_helper_memory_cells_from_peripheral_blood_1__H3K4me1 | 1.78205e-07 | 1.5018e-07 | True |
| Primary_T_helper_cells_from_peripheral_blood__H3K4me1 | 1.3524e-07 | 3.70906e-07 | True |
| Primary_T_helper_cells_PMA-I_stimulated__H3K4me1 | 1.22911e-07 | 4.08701e-07 | True |
| Primary_T_helper_17_cells_PMA-I_stimulated__H3K27ac | 3.57399e-07 | 5.40299e-07 | True |
| Spleen_ENTEX__H3K27ac | 5.85499e-08 | 6.29279e-07 | True |
| Primary_T_cells_effector_memory_enriched_from_peripheral_blood__H3K4me1 | 2.19465e-07 | 9.80666e-07 | True |
| Primary_T_cells_from_peripheral_blood__H3K4me1 | 1.10633e-07 | 1.12969e-06 | True |
| Primary_Natural_Killer_cells_from_peripheral_blood__DNase | 2.87209e-07 | 1.27231e-06 | True |
| Primary_T_helper_cells_PMA-I_stimulated__H3K27ac | 1.62782e-07 | 1.43172e-06 | True |
| Primary_T_cells_from_peripheral_blood__DNase | 2.63651e-07 | 6.12566e-06 | True |
| Primary_T_killer_memory_cells_from_peripheral_blood__H3K4me1 | 1.4703e-07 | 7.76036e-06 | True |
| Primary_T_cells_from_peripheral_blood__H3K27ac | 1.85166e-07 | 9.91999e-06 | True |
| Primary_T_helper_17_cells_PMA-I_stimulated__H3K4me3 | 5.72705e-07 | 1.51429e-05 | True |
| Primary_mononuclear_cells_from_peripheral_blood__H3K9ac | 2.56674e-07 | 1.84474e-05 | True |
| Primary_T_helper_naive_cells_from_peripheral_blood_1__H3K4me1 | 1.42012e-07 | 2.66904e-05 | True |
| Primary_T_cells_from_cord_blood__DNase | 2.76964e-07 | 4.84287e-05 | True |
| Primary_T_regulatory_cells_from_peripheral_blood__H3K27ac | 1.41208e-07 | 6.79159e-05 | True |
| Primary_T_helper_cells_PMA-I_stimulated__H3K4me3 | 3.0952e-07 | 0.000146238 | True |
| Primary_T_helper_memory_cells_from_peripheral_blood_1__H3K4me3 | 3.30703e-07 | 0.000190911 | True |
| Primary_T_helper_memory_cells_from_peripheral_blood_1__H3K27ac | 2.38795e-07 | 0.000191918 | True |
| Primary_T_killer_naive_cells_from_peripheral_blood__H3K4me1 | 1.03862e-07 | 0.000234462 | True |
| Colonic_Mucosa__H3K9ac | 1.69975e-07 | 0.000258698 | True |
| Primary_T_helper_17_cells_PMA-I_stimulated__H3K36me3 | 1.21335e-07 | 0.000361052 | True |
| Primary_T_regulatory_cells_from_peripheral_blood__H3K4me3 | 2.56492e-07 | 0.000408582 | True |
| Spleen_ENTEX__H3K36me3 | 2.85012e-08 | 0.000628698 | False |
| Primary_Natural_Killer_cells_from_peripheral_blood__H3K4me1 | 1.02027e-07 | 0.000703613 | False |
| Spleen_ENTEX__H3K4me1 | 1.71395e-07 | 0.00092961 | False |
| Primary_T_cells_effector_memory_enriched_from_peripheral_blood__H3K27ac | 2.5195e-07 | 0.00113583 | False |
| Primary_T_helper_memory_cells_from_peripheral_blood_2__H3K4me3 | 2.28469e-07 | 0.00130371 | False |
| Primary_T_helper_naive_cells_from_peripheral_blood__H3K9ac | 3.11764e-07 | 0.00133795 | False |
| Primary_Natural_Killer_cells_from_peripheral_blood__H3K27ac | 1.54913e-07 | 0.00141558 | False |
| Primary_T_helper_cells_PMA-I_stimulated__H3K36me3 | 7.10304e-08 | 0.00173045 | False |
Again the focus on immunological cell and tissue types is consistent with known biology.
The single significant intestinal cell type is of unclear importance. It may be noise and/or artifact, or it may reflect the presence of immune cells in the gut wall.
It is also interesting to observe that in both the GTEx and Roadmap analysis, T cells were the most significant, also consistent with known biology.
ImmGen data
I next applied S-LDSC to the asthma GWAS using ImmGen data as a reference.
The results are given in the plot and table below:
| Name | Coefficient | Coefficient_P_value | Reject Null |
|---|---|---|---|
| T.4Mem.Sp | 1.75441e-08 | 2.27642e-07 | True |
| NKT.4+.Lv | 1.45005e-08 | 5.31667e-07 | True |
| NKT.4-.Sp | 1.61158e-08 | 1.19597e-06 | True |
| T.4Mem44h62l.Sp | 1.51641e-08 | 1.68921e-06 | True |
| LN.TR.14w.B6 | 1.4607e-08 | 3.05104e-06 | True |
| ABD.TR.14w.B6 | 1.61976e-08 | 4.36389e-06 | True |
| NKT.4-.Lv | 1.31215e-08 | 6.96657e-06 | True |
| T.4Mem44h62l.LN | 1.37984e-08 | 1.28985e-05 | True |
| CD4Control | 1.36494e-08 | 5.34825e-05 | True |
| T.4FP3+25+.Sp | 1.10745e-08 | 0.00012789 | True |
| T.8Eff.Sp.OT1.d10.LisOva | 1.07401e-08 | 0.000175188 | True |
| Tgd.vg2-.Sp | 9.08137e-09 | 0.000236126 | True |
| T.8Eff.Sp.OT1.d8.VSVOva | 1.08524e-08 | 0.000238524 | True |
| NKT.44+NK1.1+.Th | 1.09896e-08 | 0.00030989 | True |
| Tgd.vg2-.act.Sp | 8.33486e-09 | 0.000323691 | True |
| Tgd.vg2+.Sp | 1.07736e-08 | 0.000392383 | True |
| NKT.4+.Sp | 1.1554e-08 | 0.000465112 | True |
| NK.b2m-.Sp | 8.96422e-09 | 0.000602208 | True |
| T.4.Pa.BDC | 1.00297e-08 | 0.000664139 | False |
| T.4Mem.LN | 9.51501e-09 | 0.00070779 | False |
| T.8Eff.Sp.OT1.d8.LisOva | 9.7501e-09 | 0.000785852 | False |
| T.4SP69+.Th | 1.01601e-08 | 0.000789917 | False |
| Tgd.vg2+24alo.Th | 1.27289e-08 | 0.000825648 | False |
| Tgd.vg2-.Sp.TCRbko | 8.78036e-09 | 0.000952023 | False |
| Tgd.vg2+24ahi.Th | 1.09829e-08 | 0.00101376 | False |
| T.8Mem.Sp.OT1.d45.LisOva | 1.01302e-08 | 0.00112147 | False |
Here, all significant cell types are either T cell or natural killer cells. The significance of natural killer cells may reflect their real role in asthma, or their strong transcriptomic overlap with T cells3, or both.
Corces et al. ATAC-seq data
Next, I applied S-LDSC using the Corces blood-cell ATAC-seq data as a reference.
| Name | Coefficient | Coefficient_P_value | Reject Null |
|---|---|---|---|
| CD4 | 2.0966e-07 | 3.20707e-05 | True |
| CD8 | 1.78171e-07 | 8.74402e-05 | True |
| NK | 1.52311e-07 | 0.0025469 | False |
| Bcell | 4.71654e-08 | 0.0924839 | False |
| HSC | 2.82408e-08 | 0.137143 | False |
| MPP | 2.86087e-08 | 0.137208 | False |
| LMPP | 1.76042e-08 | 0.314867 | False |
| Mono | 2.26418e-08 | 0.334303 | False |
| CLP | 1.45358e-08 | 0.345982 | False |
| MEP | 7.94853e-09 | 0.350748 | False |
| GMP | 8.7878e-09 | 0.373874 | False |
| CMP | 2.81872e-09 | 0.455809 | False |
| Erythro | -8.14228e-08 | 0.931757 | False |
Yet again, we see strong significance of T-cell types.
Cahoy and GTEx-Brain data
Consistent with a disease that is not primarily neurological, there were not significant cell types in the Cahoy or GTEx-brain datasets.
| Name | Coefficient | Coefficient_P_value | Reject Null |
|---|---|---|---|
| Astrocyte | 2.68341e-09 | 0.134337 | False |
| Neuron | -7.26051e-11 | 0.51659 | False |
| Oligodendrocyte | -3.19043e-09 | 0.905963 | False |
| Name | Coefficient | Coefficient_P_value | Reject Null |
|---|---|---|---|
| Brain_Cerebellum | 7.49537e-09 | 0.00285985 | False |
| Brain_Cerebellar_Hemisphere | 2.88573e-09 | 0.0952969 | False |
| Brain_Spinal_cord_(cervical_c-1) | 7.39534e-10 | 0.336336 | False |
| Brain_Cortex | 5.27257e-10 | 0.373407 | False |
| Brain_Amygdala | 1.55599e-10 | 0.469241 | False |
| Brain_Frontal_Cortex_(BA9) | -4.11044e-10 | 0.622353 | False |
| Brain_Nucleus_accumbens_(basal_ganglia) | -8.97294e-10 | 0.716098 | False |
| Brain_Anterior_cingulate_cortex_(BA24) | -1.45618e-09 | 0.853186 | False |
| Brain_Putamen_(basal_ganglia) | -2.16576e-09 | 0.885143 | False |
| Brain_Caudate_(basal_ganglia) | -1.98446e-09 | 0.910509 | False |
| Brain_Hippocampus | -2.43085e-09 | 0.921089 | False |
| Brain_Hypothalamus | -2.56127e-09 | 0.928584 | False |
| Brain_Substantia_nigra | -3.06368e-09 | 0.974794 | False |
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Yi Han, Qiong Jia, Pedram Shafiei Jahani, Benjamin P Hurrell, Calvin Pan, Pin Huang, Janet Gukasyan, Nicholas C Woodward, Eleazar Eskin, Frank D Gilliland, and others. Genome-wide analysis highlights contribution of immune system pathways to the genetic architecture of asthma. Nature Communications, 11(1):1776, 2020. URL: https://www.nature.com/articles/s41467-020-15649-3. ↩
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Hilary K Finucane, Yakir A Reshef, Verneri Anttila, Kamil Slowikowski, Alexander Gusev, Andrea Byrnes, Steven Gazal, Po-Ru Loh, Caleb Lareau, Noam Shoresh, and others. Heritability enrichment of specifically expressed genes identifies disease-relevant tissues and cell types. Nature Genetics, 50(4):621–629, 2018. URL: https://pmc.ncbi.nlm.nih.gov/articles/PMC5896795/. ↩
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Stephanie Vargas Aguilar, Oscar Aguilar, Rhys Allan, El Ad David Amir, Veronique Angeli, Maxim N Artyomov, Natasha Asinovski, Jilian Astarita, K Frank Austen, Geetika Bajpai, and others. ImmGen at 15. Nature Immunology, 21(7):700–703, 2020. URL: https://escholarship.org/content/qt75r8v4bt/qt75r8v4bt.pdf. ↩