Core A: Administrative Core Funded Grant uri icon

description

  • SUMMARY Core A An Administrative Core will coordinate and facilitate all activities within the U54 SenNet Murine Tissue Mapping Center (mTMC) Research Group. Core A will be headed by Drs. Dixit and Montgomery, who are NIH funded investigators and bring many years of experience at managing large collaborative research projects. This Core will be responsible for the overall organization, management, decision-making, and communication in the project, as well as utilization of institutional resources. The Administrative Core will provide oversight and consultation to each of the Cores to ensure that scientific objectives are met and that there is optimal utilization of resources. Specifically, the Administrative Core will: 1) monitor and assist each group so that their goals are achieved, and emergent problems are expeditiously addressed; 2) provide fiscal management and ensure cost-effective utilization of U54 resources; 3) ensure timely sharing of SOPs and data packages; 4) support collaborative activities and pilot studies; 5) promote the communication and dissemination of research and technology; and 6) organize the presentation and publication of data. This Core will also ensure data sharing, protection of intellectual property, and long-term data storage in coordination with the SenNet CODCC. Core A will have scientific input from both an Internal and External Advisory Committee and full partnership across the SenNet to advance development of the atlas. The Core Directors chair progress meetings and advisory committees to oversee progress and promote the success of the mTMC.
  • SUMMARY Yale-murine TMC (mTMC), through application of high-content and high throughput single-cell and spatial omics technologies, we aim to accelerate the discovery of senescent biomarkers, apply them to mouse models, and generate hypotheses to test mechanisms of organismal aging. Our proposed unbiased analyses will also answer the question whether senescent cells (stromal or hematopoietic lineage) exist in sufficient quantities to alter the inflammatory landscape and biology. Yale-mTMC will use lineage-marked mouse to classify types or subtypes of senescent cells, their spatial heterogeneity and how these cells impact the tissue environments. Yale-mTMC will assemble 1) a multidisciplinary team to generate the molecular and cellular maps of cellular senescence in Thymus, Bone marrow, Spleen, PBMCs, Mesenteric and Inguinal adipose tissue. 2) develop and deploy a suite of high-resolution, high-content and high throughput single-cell and spatial omics technologies to characterize these specimens and 3) perform integrated informatics to identify biomarkers of senescent cell heterogeneity and to construct comprehensive molecular and cellular maps of cellular senescence and including an i.v CD45 antibody labeling/sorting approach to study tissue resident immune cells in non-lymphoid tissues. We will utilize the analysis platforms established through the Yale human TMC to enable cross-species verification of biomarkers. Three major biological analysis pipelines are: (A) Multiplex Imaging (MI) including CODEX, IMC, and SMI, complemented by 3D light sheet microscopy of cleared tissues, (B) Single Cell Analysis (SCA) including scCITE-seq for protein and mRNA profiling, CyTOF for high-plex immunophenotyping, and single-cell protein secretome profiling to measure SASP heterogeneity, and (C) Spatial Multi-Omics Sequencing (SMOS) using DBiT-based spatial-CITE-seq for spatially resolved proteo-transcriptomic mapping at genome scale. The combination of these pipelines allows for highly sensitive and single-cell resolution mapping of senescent cells and associated tissue environments. Yale-mTMC aims to assemble a multidisciplinary team led by PI: Dixit (Director, Yale Center for Research on Aging), and MPI: Montgomery (Immunologist, Associate Dean for scientific affairs) with Core Leads Dr. Fan (Bioengineer), Dr. Kluger (informatics and data analytics) and Key personnel Dr. Booth (mouse pathologist), Dr. Lucas, Haberman (Immunologists, expert in pet store mouse model, imaging) with IAB composed of scientific leaders Drs. Medzhitov, Iwasaki and Ruddle. We have experience in management of large, multi-component programs and prior experience with generating significant high-quality imaging and omics data as part of a consortium. A dedicated program manager will manage and coordinate all activities across the center and with the SenNet consortium. Complementary and multidisciplinary scientific expertise of the team will translate into the collective capability of the TMC to foster integration of multi- dimensional, multiparameter data generation and coordination with SenNet and other TMCs for greater impact

date/time interval

  • 2022 - 2026