Project description:The NFE2L2/NRF2 oncogene and transcription factor drives a gene expression program that promotes cancer progression, metabolic reprogramming, immune evasion and chemoradiation resistance. Patient stratification by NRF2 activity may guide treatment decisions to improve outcome. Here, we developed a mass spectrometry (MS)-based targeted proteomics assay based on internal standard triggered parallel reaction monitoring (IS-PRM) to quantify 69 NRF2 pathway components and targets as well as 21 proteins of broad clinical significance in head and neck squamous cell carcinoma (HNSCC). We improved the existing IS-PRM acquisition algorithm, called SureQuantTM, to increase throughput, sensitivity, and precision. Testing the optimized platform on 27 lung and upper aerodigestive cancer cell models revealed 35 NRF2 responsive proteins. In formalin-fixed paraffin-embedded (FFPE) HNSCCs, NRF2 signaling intensity positively correlated with NRF2 activating mutations and with SOX2 protein expression. PD-L2/CD273 and protein markers of T-cell infiltration correlated positively with one another and with human papilloma virus (HPV) infection status. p16/CDKN2A protein expression positively correlated with the HPV oncogenic E7 protein, and confirmed the presence of translationally active virus. This work establishes a clinically actionable HNSCC protein biomarker assay capable of quantifying over 600 peptides from frozen or FFPE archived tissues in under 90 minutes.

Project description:The NFE2L2/NRF2 oncogene and transcription factor drives a gene expression program that promotes cancer progression, metabolic reprogramming, immune evasion and chemoradiation resistance. Patient stratification by NRF2 activity may guide treatment decisions to improve outcome. Here, we developed a mass spectrometry (MS)-based targeted proteomics assay based on internal standard triggered parallel reaction monitoring (IS-PRM) to quantify 69 NRF2 pathway components and targets as well as 21 proteins of broad clinical significance in head and neck squamous cell carcinoma (HNSCC). We improved the existing IS-PRM acquisition algorithm, called SureQuantTM, to increase throughput, sensitivity, and precision. Testing the optimized platform on 27 lung and upper aerodigestive cancer cell models revealed 35 NRF2 responsive proteins. In formalin-fixed paraffin-embedded (FFPE) HNSCCs, NRF2 signaling intensity positively correlated with NRF2 activating mutations and with SOX2 protein expression. PD-L2/CD273 and protein markers of T-cell infiltration correlated positively with one another and with human papilloma virus (HPV) infection status. p16/CDKN2A protein expression positively correlated with the HPV oncogenic E7 protein, and confirmed the presence of translationally active virus. This work establishes a clinically actionable HNSCC protein biomarker assay capable of quantifying over 600 peptides from frozen or FFPE archived tissues in under 90 minutes.

Project description:The nuclear factor erythroid 2-related factor 2 (NRF2) transcription factor activates cytoprotective and metabolic gene expression in response to various electrophilic stressors. In disease, constitutive NRF2 activity promotes cancer progression while decreased NRF2 function contributes to neurodegenerative diseases. In contrast to the regulation of NRF2 protein stability in the cytoplasm, co-complexed proteins that govern NRF2 activity on chromatin are less clear. Using biotin proximity proteomics, we report networks for NRF2 and its family members NRF1, NRF3 and the NRF2 heterodimer MAFG. We found that the Parkinson’s disease zinc finger transcription factor ZNF746 (PARIS) physically associated with NRF2 and MAFG, resulting in suppression of NRF2-driven transcription. ZNF746 expression increased oxidative stress and apoptosis, phenotypes that were reversed by chemical and genetic hyperactivation of NRF2. This study presents a functionally annotated proximity network for NRF2 and suggests that ZNF746 overexpression in Parkinson’s disease directly inhibits NRF2-driven neuroprotection.

Project description:NRF2 activation in TRP53:P16 deficient mice drives oral squamous cell carcinoma

Project description:To investigate the retinal proteins associated with primary and secondary retinal ganglion cell (RGC) degeneration and explore their molecular pathways, SWATH label-free and target-based mass spectrometry was employed to identify the proteomes in various retinal locations in response to localized optic nerve injury. Unilateral partial optic nerve transection (pONT) was performed on adult Wistar rats and their retinas were harvested at 2 weeks later. To confirm the separation of primary and secondary RGC degeneration, immunohistochemistry of RNA binding protein with multiple splicing (RBPMS) and glial fibrillary acidic protein (GFAP) was performed on retinal whole-mounts. Retinal proteomes in the temporal and nasal quadrants were evaluated with high resolution hybrid quadrupole time-of-flight mass spectrometry (QTOF-MS), and SWATH-based acquisition, and their expression was compared to the corresponding retinal quadrant in contralateral control eyes and further validated by multiple reaction monitoring mass spectrometry (MRM-MS). A total of 3641 proteins (p<0.05, FDR<1%) were quantified by SWATH-MS. Bioinformatics data analysis showed that there were 35 up-regulated and 24 down-regulated proteins in the temporal quadrant while 19 and 5 proteins were up-regulated and down-regulated, respectively, in the nasal quadrant respectively (n=4, p<0.05; fold change ≥1.4 fold or ≤0.7). Six proteins were regulated in both the temporal and the nasal quadrants including CLU, GFAP, GNG5, IRF2BPL, L1CAM and CPLX1. Linear regression analysis indicated a strong association between the data obtained by SWATH-MS and MRM-MS (temporal, R2=0.97; nasal, R2=0.96). Gene ontology analysis reveals statistically significant changes in the biological processes and cellular components of primary RGC degeneration. The majority of the significant changes in structural, signaling, and cell death proteins were associated with loss of RGCs in the area of primary RGC degeneration. The combined use of SWATH-MS and MRM-MS methods detects and quantifies regional changes of retinal protein expressions after localized injury. Future investigation with this integrated approach will significantly increase understanding of diverse processes of progressive RGC degeneration from a proteomic prospective.

Project description:Nrf2 is a transcription factor playing an essential role in stress response. A knowledge of the significance of Nrf2 in cell function has not, as yet, reached out beyond transactivation of gene expression. This paper shows that GDF-15 and SDF-1-induced angiogenesis strongly depends on Nrf2 presence, but is not related to its transcriptional activity. We propose, that Nrf2 serves as a protein restraining Keap1, its known transcriptional repressor. Deficiency of Nrf2 protein available for Keap1 leads to overabundance of RhoGAP1, the protein regulating Cdc42 activity, and impairs podosome assembly, thereby indisposing actin rearrangements, preventing migration and angiogenesis. These activities can be rescued by concomitant deletion of RhoGAP1 or Keap1. We suggest that a new Nrf2 function of a Keap1 scavenger implies revising the established murine model of Nrf2 deficiency as a transcriptional knock out (tKO) mouse. The N-terminal fragment of Nrf2, containing Neh2 domain binding Keap1, is present in these animals. Thus, regarding the function of Nrf2 as a protein sequestering Keap1, both published and unpublished data on Nrf2-Keap1 duet may gain new interpretation.

Project description:We developed 2D-LC-MS/MS-based SRM and PRM assays to measure HSP90 alpha in serum and compared the results to a commercially available immunoassay (ELISA). Serum samples were trypsin-digested and fractionated by SCX chromatography prior to SRM and PRM measurements. PRM data obtained by high-resolution mass spectrometry correlated better with ELISA measurements than SRM data measured on a triple quadrupole mass spectrometer. While all three methods (SRM, PRM, ELISA) were able to quantify HSP90 alpha in serum at the ng/mL level, the use of PRM on a high-resolution mass spectrometer reduced variation. To rule out that the observed differences in SRM and PRM are due to different mass spectrometry systems, the SCX fractions were measured on the same high-resolution instrument (Orbitrap) in the ion trap mode (IT-PRM); such measurements showed that intense co-eluting signals were present in the SRM method, but these interfering peaks were eliminated in the high-resolution PRM mode. Thus, this report shows that it is possible to measure ng/mL levels of HSP90 alpha in a reproducible, selective and sensitive way using PRM. This opens up the possibility to quantify low levels of multiple proteins in complex samples based on a fractionation strategy on tryptic peptides followed by SRM and PRM.

Project description:Analysis of histone PTM levels in proliferating, quiescent and HU-treated TIG3 fibroblasts. TIG3 fibroblasts were cultured in the absence or presence of HU (600 μM) for at least 6 days, rendering cells quiescent due to contact inhibition or long-term exposure to replication stress, respectively. The dataset contains RAW MS data used for histone PTM quantification presented in Gaggioli et al, 2023 (Fig.1c, Extended Data Fig. 1f and 2c)

Project description:Cellular oxidative and electrophilic stress triggers a protective response in mammals regulated by NRF2 (nuclear factor (erythroid-derived) 2-like; NFE2L2) binding to DNA-regulatory sequences near stress responsive genes. Studies using Nrf2-deficient mice suggest that hundreds of genes may be regulated by NRF2. To identify human NRF2-regulated genes, we conducted ChIP-sequencing experiments in lymphoid cells treated with the dietary isothiocyanate, sulforaphane (SFN) and carried out follow-up biological experiments on candidates. We found 242 high-confidence, NRF2-bound genomic regions and 96% of these regions contained NRF2-regulatory sequence motifs. The majority of binding sites were near potential novel members of the NRF2 pathway. Validation of selected candidate genes using parallel ChIP techniques and in NRF2-silenced cell lines indicated that the expression of about two thirds of the candidates are likely to be directly NRF2-dependent including retinoid X receptor alpha (RXRA). NRF2 regulation of RXRAhas implications for response to retinoid treatments and adipogenesis. In mouse 3T3-L1 cells SFN treatment affected Rxra expression early in adipogenesis and knockdown of Nrf2 delayed Rxra expression, both leading to impaired adipogenesis. ChIP-Seq analysis of NRF2 binding sites in human lymphoblastoid cells treated with sulforaphane or vehicle

Project description:ABSTRACT Rationale Premature senescence is conducive to aging and cardiovascular diseases. Nrf2 transcription factor, the master orchestrator of adoptive response to cellular stress, has been implicated in regulation of premature senescence in fibroblasts, neural and mesenchymal stem cells by transactivation of antioxidant gene expression. However, as we show here, human primary endothelial cells (ECs) devoid of Nrf2 and murine Nrf2 transcriptional knockout (tKO) aortas are senescent but do not encounter oxidative stress and damage, what contradicts this mechanism. Moreover, a molecular switch between normal, senescent and apoptotic fate remains unknown. Objective To elucidate the mechanism of Nrf2-related premature senescence of vascular system, to understand why Nrf2 deregulation does not cause oxidative stress exclusionary in ECs and to indicate a molecular switch determining ECs fate. Methods and Results Herein we evidence that ECs deficient in Nrf2 protein, or with limited Nrf2 activity in shear stress conditions, exhibit excessive S-nitrosylation of proteins. It is also a characteristic of Nrf2 tKO murine aortas, as determined by biotin switch assay in situ. Mass spectrometry analysis reveals that NOX4 is S-nitrosylated exclusively in ECs devoid of Nrf2. A functional role of S-nitrosylation is protection of ECs from death by inhibition of NOX4-mediated oxidative damage. As a result Nrf2-deficient ECs preserve oxidative balance but are redirected to premature senescence. The same phenotype is seen in Nrf2 tKO aortas. These effects are mediated by Keap1, a direct binding partner of Nrf2 and repressor of its transcriptional activity, remaining in cytoplasm unrestrained by Nrf2. S-nitrosylation, followed by senescence, can also be triggered in smooth muscle cells (SMCs) by EC-derived paracrine induction of iNOS. Conclusions Collectively, Keap1-dependent S-nitrosylation of NOX4 hampers oxidative detriment in ECs with disturbed Nrf2 signaling and may provide defence in the adjacent aortic cells. Overabundance of unrestrained Keap1 in the cytoplasm determines fate of ECs.