AI Article Synopsis
- This study investigates how a mutation in the MyD88 protein affects immune responses and cell health in mice, revealing issues similar to those in humans with NEMO deficiencies.
- The mutation leads to lower MyD88 protein levels, increased oxidative stress, and dysfunctional mitochondria in macrophages, resulting in heightened susceptibility to apoptosis, especially when treated with ibrutinib.
- The research highlights the critical role of MyD88 in activating NF-κB to protect macrophages from premature death and suggests that adjusting MyD88 levels could be a potential approach for treating MyD88-related lymphomas.
Article Abstract
Various signaling pathways are essential for both the innate immune response and the maintenance of cell homeostasis, requiring coordinated interactions among them. In this study, a mutation in the caspase-1 recognition site within MyD88 abolished inflammasome-dependent negative regulation, causing phenotypic changes in mice with some similarities to human NEMO-deficiencies. The MyD88 mutation reduced MyD88 protein levels and colon inflammation in DSS-induced colitis mice but did not affect cytokine expression in bone marrow-derived macrophages (BMDMs). However, compared to MyD88 counterparts, MyD88 BMDMs had increased oxidative stress and dysfunctional mitochondria, along with reduced prosurvival Bcl-xL and BTK expression, rendering cells more prone to apoptosis, exacerbated by ibrutinib treatment. NF-κB activation by lipopolysaccharide mitigated this sensitive phenotype. These findings underscore the importance of MyD88 signaling for NF-κB activation, protecting against macrophage premature apoptosis at resting state. Targeting MyD88 quantity rather than just its signaling could be a promising strategy for MyD88-driven lymphoma treatment.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11568545 | PMC |
| http://dx.doi.org/10.1186/s12964-024-01930-1 | DOI Listing |
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