Proteomics signatures of cerebrovascular pathology in TGFß1 overexpressing mice

Abstract

AbstractBackgroundVascular cognitive impairment and dementia (VCID), the second most prevalent of the age‐related dementias, develops as a consequence of various types of cerebrovascular insults that damage brain function (Corriveau et al. 2016). Accumulating lines of evidence point to a link between VCID, both sporadic (Kim et al. 2006) and genetic (Hara et al. 2009, Zellner et al. 2018) forms, and the transforming growth factor beta (TGFB) family signaling. Transgenic mice overexpressing a constitutively active form of TGFβ1 in the brain (TGF mice) recap the cerebrovascular pathology seen in VCID (Wyss‐Coray et al. 2000, Tong et al. 2015), and develop VCID when submitted to a comorbid cardiovascular risk factor for dementia (Trigiani et al. 2020). Our aim was to characterize the cerebrovascular proteome of TGF mice using mass spectrometry‐based quantitative proteomics.MethodEighteen, 6‐month‐old‐TGF and ‐wildtype (WT) mice (N = 9/group) were transcardially perfused and pial arteries harvested under a dissecting microscope. Arterial proteins were extracted, trypsin‐digested, fractionated by strong cation exchange (SCX, gel‐free method) and analyzed by nanoLC‐MS/MS using nanoAcquity UPLC and ESI‐LTQ Orbitrap. For total and/or differentially‐expressed proteins (≥2‐fold change, p≤0.01) we i) performed characterization of proteins, and demonstrated presence of ii) protein RNA‐transcript in mouse and human brain vascular cells using transcriptomics datasets, and iii) identified proteins present in human‐extracellular‐vesicles (EVs) using Vesiclepedia.ResultWe identified 3602 proteins in brain vessels of WT and TGF mice, including canonical vascular proteins (e.g. Claudin‐5), and 103 direct (N = 103) and indirect (N = 1,942) interactors of TGFβ1 (Fig1). We also identified 83 proteins demonstrating significantly altered levels in TGF mice. Level dysregulation in these proteins point to perturbations in brain vessel vasomotricity, remodeling, and inflammation. We further demonstrated that several of the differentially‐expressed mouse proteins are i) expressed in the human brain vasculature, and ii) found as cargo proteins in EVs.ConclusionWe characterized the deleterious impact of TGFβ1 overproduction on the cerebrovascular proteome. Given the growing popularity of extracellular vesicles in blood as a novel and minimally invasive biomarker discovery platform for the age‐related dementias, including VCID, several of the proteins identified by us can serve as protein biomarkers in human.