Diverse Roles of Protein Palmitoylation in Cancer Progression, Immunity, Stemness, and Beyond

Li, Mingli; Zhang, Leisi; Chen, Chun-Wei

doi:10.3390/cells12182209

Cited by 6 publications

(2 citation statements)

References 216 publications

(259 reference statements)

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“…Intriguingly, cathepsins are also known to be overexpressed and associated with poor clinical outcome in pediatric [25]. Recent studies have suggested potential role for S-palmitoylation in lysosomal functions indirectly through its effects on proteins involved in lysosomal tra cking, membrane fusion, signaling pathways and protein degradation [39]. Hence, inhibition of FASN can downregulate CTSZ, which then leads to a reduced degradation of c-Kit and p-c-Kit.…”

Section: Discussionmentioning

confidence: 99%

Functional role of fatty acid synthase for signal transduction in Core binding factor-AML with activating c-Kit mutation

Zhuang,

Siebels,

Hoffer

et al. 2024

Preprint

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Background AML is a rare hematological malignancy still associated with poor prognosis. 5% of de novo AML and 30% of core binding factor (CBF) AML (translocation t(8;21)(q22;q22) or invasion (16)(p13;q22)), respectively, harbor activating c-Kit (CD117) mutations leading to an adverse clinical outcome. Posttranslational protein modifications, especially by myristolic and palmitic acid, are known to be important for diverse cell functions such as membrane organization, transduction signaling or regulation of apoptosis. However, most data come from solid tumor studies while its role in AML is still poorly understood. Fatty acid synthase (FASN) is one of the key palmitoyl-acyltransferases which controls subcellular localization, trafficking and degradation of various target proteins. H-Ras, N-Ras or FLT3-ITDmut receptors are known to be important target proteins for FASN in AML. Methods In this study, we investigated the role of FASN in two c-Kit-N822K mutated AML cell lines. Using FASN knockdown via shRNA and the FASN inhibitor TVB-3166. Functional implications including cell viability and proliferation were tracked in a combined approach integrating western blotting, mass spectrometry PamGene. Results In FASN-knockdown cells, we observed an increase in phosphorylation of c-Kit (p-c-Kit), Lyn kinase (pLyn) as well as of S6 kinase (pS6). Moreover, a downregulation of cathepsin Z (CTSZ), which belongs to endo-lysosomal proteases and is hence essential for degradation of cellular proteins within lysosomes was found. Conclusion Recent studies have suggested potential roles for palmitoylation in lysosomal function indirectly through its effects on proteins involved in lysosomal trafficking, membrane fusion, and signaling pathways. Therefore, our observation of the reduced expression of CTSZ due to the inhibition of FASN offers an explanation for the increased c-Kit, Lyn, and S6 kinase activity in CBF-AML with activating c-Kit mutation.

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Section: Discussionmentioning

confidence: 99%

Functional role of fatty acid synthase for signal transduction in Core binding factor-AML with activating c-Kit mutation

Zhuang,

Siebels,

Hoffer

et al. 2024

Preprint

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“…The etiology of these disruptions includes changes in membrane dynamics and protein localization, which are critical in cellular signaling and initiating apoptosis. Additionally, anomalies in ZDHHC enzyme function have been associated with the proliferation of cancer characteristics, including unrestrained cell growth, invasion, and metastasis [121]. These findings underscore the enzymes' dual capacities as potential oncogenes or tumor suppressors, contingent on the biological context, and spotlight the therapeutic promise of targeting palmitoylation pathways to restore regulated cell death and combat cancer progression [111,122].…”

Section: Linking Palmitoylation To Cellular Death In Cancermentioning

confidence: 97%

Advances of Protein Palmitoylation in Tumor Cell Deaths

Lin,

Shi,

Zhan

et al. 2023

Cancers

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In this comprehensive survey, we delve into the multifaceted role of palmitoylation across various cell death modalities in the oncological context, from its intricate correlations with tumorigenesis, steered by the Asp-His-His-Cys tetrapeptide motif (DHHC) family, to the counter-process of depalmitoylation mediated by enzymes like Palmitoyl protein thioesterase-1 (PPT1). Innovations in detection methodologies have paralleled our growing understanding, transitioning from rudimentary techniques to sophisticated modern methods. Central to our discourse are agents like Ezurpimtrostat (GNS561) and dimeric chloroquine (DC661), promising heralds in palmitoylation-targeted cancer therapy. Collectively, this review accentuates palmitoylation’s transformative potential in oncology, foreshadowing groundbreaking therapeutic strategies and deepening our molecular comprehension of cancer dynamics.

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Deacylases—structure, function, and relationship to diseases

Wang,

Xing,

et al. 2024

FEBS Letters

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Reversible S‐acylation plays a pivotal role in various biological processes, modulating protein functions such as subcellular localization, protein stability/activity, and protein–protein interactions. These modifications are mediated by acyltransferases and deacylases, among which the most abundant modification is S‐palmitoylation. Growing evidence has shown that this rivalrous pair of modifications, occurring in a reversible cycle, is essential for various biological functions. Aberrations in this process have been associated with various diseases, including cancer, neurological disorders, and immune diseases. This underscores the importance of studying enzymes involved in acylation and deacylation to gain further insights into disease pathogenesis and provide novel strategies for disease treatment. In this Review, we summarize our current understanding of the structure and physiological function of deacylases, highlighting their pivotal roles in pathology. Our aim is to provide insights for further clinical applications.

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Diverse Roles of Protein Palmitoylation in Cancer Progression, Immunity, Stemness, and Beyond

Cited by 6 publications

References 216 publications

Functional role of fatty acid synthase for signal transduction in Core binding factor-AML with activating c-Kit mutation

Functional role of fatty acid synthase for signal transduction in Core binding factor-AML with activating c-Kit mutation

Advances of Protein Palmitoylation in Tumor Cell Deaths

Deacylases—structure, function, and relationship to diseases

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