Reverse GWAS: Using Genetics to Identify and Model Phenotypic Subtypes

Dahl, Andy; Cai, Na; Ko, Arthur; Laakso, Markku; Pajukanta, Päivi; Flint, Jonathan; Zaitlen, Noah

doi:10.1101/446492

Cited by 17 publications

(25 citation statements)

References 79 publications

(91 reference statements)

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“…Many whole-genome sequencing studies are underway in both large cohorts and smaller but more homogenous and deeply phenotyped subjects, and the value of these studies should be revealed over the next few years. Newer approaches, such as reverse phenotyping of subjects using genetic markers to define endotypes 77 and integrating of multi-omics measures using machine learning and other advance computational tools, are already becoming standard. Finally, there is still the need for finemapping studies at associated loci to pinpoint causal variants and the genes they regulate, as well as functional validation studies that link the effects of genetic risk and disease mechanisms to disease, which have been done thus far for surprisingly few asthma and allergic disease loci.…”

Section: Discussionmentioning

confidence: 99%

Advances in asthma and allergic disease genetics: Is bigger always better?

Schoettler

Rodríguez

Weidinger

et al. 2019

Journal of Allergy and Clinical Immunology

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This review focuses on genome-wide association studies (GWASs) of asthma and allergic diseases published between January 1, 2018, and June 30, 2019. During this time period, there were 38 GWASs reported in 19 articles, including the largest performed to date for many of these conditions. Overall, we learned that childhood-onset asthma is associated with the most independent loci compared with other defined groups of asthma and allergic disease cases; adult-onset asthma and moderate-to-severe asthma are associated with fewer genes, which are largely a subset of those associated with childhoodonset asthma. There is significant genetic overlap between asthma and allergic diseases, particularly with respect to childhood-onset asthma, which involves genes that reflect the importance of barrier function biology, and to HLA region genes, which are the most frequently associated genes overall in both groups of diseases. Although the largest GWASs in African American and Latino/Hispanic populations were reported during this period, they are still significantly underpowered compared with studies reported in populations of European ancestry, highlighting the need for larger studies, particularly in patients with childhood-onset asthma and allergic diseases, in these important populations that carry the greatest burden of disease.

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Section: Discussionmentioning

confidence: 99%

Advances in asthma and allergic disease genetics: Is bigger always better?

Schoettler

Rodríguez

Weidinger

et al. 2019

Journal of Allergy and Clinical Immunology

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“…Using RGWAS, Dahl et al 55 proposed a stress subtype in MDD, and identified three novel subtypes of metabolic traits. Using BUHMBOX (Breaking Up Heterogeneous Mixture Based On Cross-locus correlations), Han et al 56 found that seropositive and seronegative rheumatoid arthritis could be subdivided to form a new subgroup within seronegative-like cases.…”

Section: Minimal Phenotyping and Endophenotypes For Refining Psychiatmentioning

confidence: 99%

Emerging phenotyping strategies will advance our understanding of psychiatric genetics

Sanchez‐Roige

Palmer

2020

Nat Neurosci

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Over the last decade, genome-wide association studies (GWAS) of psychiatric disorders have identified numerous significant loci. Whereas these studies initially depended on cohorts ascertained for specific disorders, there has been a gradual shift in the ascertainment strategy towards population-based cohorts (PBCs) for which both genotype and heterogeneous phenotypic information are available. One of the advantages of PBCs is that, in addition to clinical diagnoses and various proxies for diagnoses ("minimal phenotyping"), many of them also provide non-clinical phenotypes, including putative endophenotypes, that can be used to study domains of normal function in addition to, or instead of, clinical diagnoses. By studying endophenotypes it is possible to both dissect psychiatric disorders ("splitting") and to combine multiple phenotypes ("clumping"), which can either reinforce or challenge traditional diagnostic categories. Such endophenotypes may also permit a deeper exploration of the neurobiology of psychiatric disorders. A coordinated effort to fully exploit the potential of endophenotypes is overdue.

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“…Microvascular dysfunction is well-recognized to associate with cardiometabolic disorders, including diabetes, hypertension, hyperlipidemia, and obesity. 1,2 Healthy microvascular networks achieve complex feats of traffic control: perfusing tissues spread throughout the body, avoiding hydraulic short circuits, and dynamically reallocating fluxes in response to tissue demands.…”

Section: Introductionmentioning

confidence: 99%

Vascular Injury Changes Topology of Vessel Network to Adapt to Partition of Blood Flow for New Arteriovenous Specification

Baek

Chang

et al. 2020

Preprint

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Within vascular networks, wall shear stress (WSS) modulates endothelial cell proliferation and arteriovenous specification. Mechano-responsive signaling pathways enable vessels within a connected network to structurally adapt to properly partition blood flow between different parts of organ systems. Here, we study vascular regeneration in a zebrafish model system, performing tail amputation of the Dorsal Aorta (DA)-Posterior Cardinal Vein (PCV) embryonic circulatory loop (ECL) at 3 days post fertilization (dpf). Following severing the ECL, the topology of the microcircular network is reorganized to engender local increase in blood flow and peak WSS in the closest Segmental Artery (SeA) to the amputation site. Remodeling of this artery increases its radius, and blood flow. These hemodynamic WSS cues activate post-angiogenic Notch-ephrinb2 signaling to guide network reconnection and restore microcirculation. Gain-and loss-of-function analyses of Notch and ephrinb2 pathways, manipulations of WSS by modulating myocardial contractility and blood viscosity directly implicate that hemodynamically activated postangiogenic Notch-ephrinb2 signaling guides network reconnection and restore microcirculation.Taken together, amputation of the DA-PCV loop induces changes in microvascular topology to partition blood flow and increase WSS-mediated Notch-ephrinb2 pathway, driving the new DLAV-PCV loop formation for restoring local microcirculation.

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Reverse GWAS: Using Genetics to Identify and Model Phenotypic Subtypes

Cited by 17 publications

References 79 publications

Advances in asthma and allergic disease genetics: Is bigger always better?

Advances in asthma and allergic disease genetics: Is bigger always better?

Emerging phenotyping strategies will advance our understanding of psychiatric genetics

Vascular Injury Changes Topology of Vessel Network to Adapt to Partition of Blood Flow for New Arteriovenous Specification

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