PXD047841 is an
original dataset announced via ProteomeXchange.
Dataset Summary
Title | Parallel control of cold-triggered adipocyte thermogenesis by UCP1 and CKB |
Description | Non-shivering thermogenesis in adipocytes is mediated by brown adipose tissue, purportedly through the sole action of uncoupling protein 1 (UCP1). The physiological relevance of UCP1-dependent thermogenesis has primarily been inferred from the attenuation of thermogenic output of mice genetically lacking Ucp1 from birth (germline Ucp1-/-). However, germline Ucp1-/- mice harbor secondary changes within brown adipose tissue beyond UCP1, such as reduced electron transport chain abundance. We show here that these secondary changes also encompass reduced expression of genes regulating fuel liberation, changes that would attenuate the capacity of any thermogenic pathway. Therefore, the quantitative contribution of UCP1-dependent and -independent thermogenesis is not fully understood. To mitigate the potentially confounding ancillary changes to brown adipose tissue of germline Ucp1-/- mice, we constructed mice with inducible adipocyte-selective disruption of Ucp1. We find that, while germline Ucp1-/- mice succumb to cold-induced hypothermia with complete penetrance, most mice with inducible deletion of Ucp1 maintain homeothermy in the cold. However, inducible adipocyte-selective co-deletion of Ucp1 and creatine kinase B (Ckb, an effector of UCP1-independent thermogenesis) exacerbates cold-intolerance, indicative of a negative genetic interaction and thus a parallel thermogenic function. We find no evidence for impairments in insulation or non-shivering thermogenesis in skeletal muscle that would drive this phenotype. Furthermore, following UCP1 deletion or UCP1/CKB co-deletion from mature adipocytes, moderate cold exposure triggers the regeneration of mature adipocytes that coordinately restore UCP1 and CKB to brown adipose tissue, providing further evidence of their parallel thermogenic relationship. Our findings suggest that thermogenic adipocytes utilize non-paralogous protein redundancy – through UCP1 and CKB – to promote cold-induced energy dissipation. |
HostingRepository | PRIDE |
AnnounceDate | 2024-01-10 |
AnnouncementXML | Submission_2024-01-10_11:08:33.374.xml |
DigitalObjectIdentifier | |
ReviewLevel | Peer-reviewed dataset |
DatasetOrigin | Original dataset |
RepositorySupport | Unsupported dataset by repository |
PrimarySubmitter | Haopeng Xiao |
SpeciesList | scientific name: Mus musculus (Mouse); NCBI TaxID: 10090; |
ModificationList | iodoacetamide derivatized residue |
Instrument | Orbitrap Eclipse |
Dataset History
Revision | Datetime | Status | ChangeLog Entry |
0 | 2023-12-14 16:21:34 | ID requested | |
⏵ 1 | 2024-01-10 11:08:33 | announced | |
2 | 2024-10-22 06:20:05 | announced | 2024-10-22: Updated project metadata. |
Publication List
Dataset with its publication pending |
Keyword List
submitter keyword: brown adipose tissue |
Contact List
Lawrence Kazak |
contact affiliation | 1Rosalind & Morris Goodman Cancer Institute, McGill University, Montreal, QC, H3A 1A3, Canada 2Department of Biochemistry, McGill University, Montreal, QC, H3G 1Y6, Canada |
contact email | lawrence.kazak@mcgill.ca |
lab head | |
Haopeng Xiao |
contact affiliation | Dana-Farber Cancer Institute/Harvard Medical School |
contact email | haopeng_xiao@dfci.harvard.edu |
dataset submitter | |
Full Dataset Link List
Dataset FTP location
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PRIDE project URI |
Repository Record List
[ + ]
[ - ]
- PRIDE
- PXD047841
- Label: PRIDE project
- Name: Parallel control of cold-triggered adipocyte thermogenesis by UCP1 and CKB