TY - JOUR T1 - DIPPER: a spatiotemporal proteomics atlas of human intervertebral discs for exploring ageing and degeneration dynamics JF - bioRxiv DO - 10.1101/2020.07.11.192948 SP - 2020.07.11.192948 AU - Vivian Tam AU - Peikai Chen AU - Anita Yee AU - Nestor Solis AU - Theo Klein AU - Mateusz Kudelko AU - Rakesh Sharma AU - Wilson CW Chan AU - Christopher M. Overall AU - Lisbet Haglund AU - Pak C Sham AU - Kathryn SE Cheah AU - Danny Chan Y1 - 2020/01/01 UR - http://biorxiv.org/content/early/2020/11/21/2020.07.11.192948.abstract N2 - The spatiotemporal proteome of the intervertebral disc (IVD) underpins its integrity and function. We present DIPPER, a deep and comprehensive IVD proteomic resource comprising 94 genomewide profiles from 17 individuals. To begin with, protein modules defining key directional trends spanning the lateral and anteroposterior axes were derived from high-resolution spatial proteomes of intact young cadaveric lumbar IVDs. They revealed novel region-specific profiles of regulatory activities, and displayed potential paths of deconstruction in the level- and location-matched aged cadaveric discs. Machine learning methods predicted a “hydration matrisome” that connects extracellular matrix with MRI intensity. Importantly, the static proteome used as point-references can be integrated with dynamic proteome (SILAC/degradome) and transcriptome data from multiple clinical samples, enhancing robustness and clinical relevance. The data, findings and methodology, available on a web interface, will be valuable references in the field of IVD biology and proteomic analytics.Competing Interest StatementThe authors have declared no competing interest. ER -