Prostate cancer is one of the most common causes of cancer incidence and death in men, with the mortality caused primarily by the late-stage and metastatic forms of the disease. The mechanisms and ...molecular markers for prostate cancer metastasis are not fully understood. Speckle type Poz Protein (SPOP) is an E3 ubiquitin ligase adaptor that is often mutated in prostate cancer. In this study, we sequenced the
SPOP
gene in 198 prostate cancer patients and found 16 mutations in the cohort. Multivariate analysis revealed that
SPOP
mutations correlated with the clinical stage of the disease and strongly with metastasis. We identified ITCH as a candidate protein for SPOP-mediated degradation
via
mass spectrometry. We demonstrated the interaction between SPOP and ITCH, and found that the
SPOP
F133L mutation disrupted the SPOP-ITCH interaction, leading to a subsequent increase in the ITCH protein level. Further, we found that the SPOP knockdown led to higher levels of Epithelial- mesenchymal transition (EMT) proteins and increased cell invasion. Together, our results highlight the functional significance of the SPOP-ITCH pathway in prostate cancer metastasis.
Tumor microenvironments can promote stem cell maintenance, tumor growth, and therapeutic resistance, findings linked by the tumor-initiating cell hypothesis. Standard of care for glioblastoma (GBM) ...includes temozolomide chemotherapy, which is not curative, due, in part, to residual therapy-resistant brain tumor-initiating cells (BTICs). Temozolomide efficacy may be increased by targeting carbonic anhydrase 9 (CA9), a hypoxia-responsive gene important for maintaining the altered pH gradient of tumor cells. Using patient-derived GBM xenograft cells, we explored whether CA9 and CA12 inhibitor SLC-0111 could decrease GBM growth in combination with temozolomide or influence percentages of BTICs after chemotherapy. In multiple GBMs, SLC-0111 used concurrently with temozolomide reduced cell growth and induced cell cycle arrest via DNA damage in vitro. In addition, this treatment shifted tumor metabolism to a suppressed bioenergetic state in vivo. SLC-0111 also inhibited the enrichment of BTICs after temozolomide treatment determined via CD133 expression and neurosphere formation capacity. GBM xenografts treated with SLC-0111 in combination with temozolomide regressed significantly, and this effect was greater than that of temozolomide or SLC-0111 alone. We determined that SLC-0111 improves the efficacy of temozolomide to extend survival of GBM-bearing mice and should be explored as a treatment strategy in combination with current standard of care.
Purpose
Cks1, a conformationally heterogenous 9 kDa protein, is markedly overexpressed in cancer cells and contributes to tumor development. Cks1 is an essential component of the SCF-Skp2 ubiquitin ...ligase complex that targets the Cdk inhibitors p27
Kip1
and p21
Cip1
. Cks1 is known to interact with the Hsp90-Cdc37 chaperone machinery, although whether this facilitates its conformational maturation and stability is not known. To test whether abrogating the chaperone function of Hsp90 could destabilize Cks1, we examined the effects of treating different cancer cell lines with the benzoquinone ansamycin 17-allylamino geldanamycin (17-AAG), a compound that selectively binds Hsp90 and potently inhibits its ATP-dependent chaperone activity.
Methods
The effect of Hsp90 inhibition using 17-AAG on Cks1 protein and associated cell cycle proteins including Skp2, p27
Kip1
, p21
Cip1
, and Cdk1 in cancer cells was determined by Western blotting. Ubiquitination analysis was carried out by transfecting cells with an HA-ubiquitin plasmid and specifically immunoprecipitating Cks1 to examine polyubiquitinated species. Flow cytometry was utilized to examine the effects of Hsp90 inhibition on cell cycle profiles.
Results
Here, we demonstrate for the first time that inhibition of Hsp90 utilizing 17-AAG destabilizes Cks1 in cancer cells by promoting its ubiquitination and proteasomal degradation. 17-AAG-induced Cks1 depletion was accompanied by concomitant decreases in Skp2 and Cdk1. 17-AAG treatment also induced G2/M accumulation in MCF-7 breast carcinoma cells, and G1 accumulation in the colon carcinoma lines HCT116 and SW620.
Conclusions
We conclude that perturbing the Hsp90 pathway could provide a useful therapeutic strategy in tumors driven by Cks1 overexpression.
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EMUNI, FIS, FZAB, GEOZS, GIS, IJS, IMTLJ, KILJ, KISLJ, MFDPS, NLZOH, NUK, OILJ, PNG, SAZU, SBCE, SBJE, SBMB, SBNM, UKNU, UL, UM, UPUK, VKSCE, ZAGLJ
Anaplastic thyroid cancer (ATC) is an aggressive cancer with poor clinical prognosis. However, mechanisms driving ATC aggressiveness is not well known. Components of the DNA damage response (DDR) are ...frequently found mutated or aberrantly expressed in ATC. The goal of this study is to establish the functional link between histone acetyltransferase lysine (K) acetyltransferase 5 (KAT5, a critical DDR protein) and ATC invasiveness using clinical, in vitro and in vivo models. We analyzed the expression of KAT5 by immunohistochemistry and assessed its relationship with metastasis and overall survival in 82 ATC patients. Using cellular models, we established functional connection of KAT5 expression and C-MYC stabilization. We then studied the impact of genetically modified KAT5 expression on ATC metastasis in nude mice. In clinical samples, there is a strong correlation of KAT5 expression with ATC metastasis (P = 0.0009) and overall survival (P = 0.0017). At the cellular level, upregulation of KAT5 significantly promotes thyroid cancer cell proliferation and invasion. We also find that KAT5 enhances the C-MYC protein level by inhibiting ubiquitin-mediated degradation. Further evidence reveals that KAT5 acetylates and stabilizes C-MYC. Finally, we prove that altered KAT5 expression influences ATC lung metastases in vivo. KAT5 promotes ATC invasion and metastases through stabilization of C-MYC, demonstrating it as a new biomarker and therapeutic target for ATC.
Abstract
The Speckle type Poz Protein (SPOP), an E3 ubiquitin ligase adaptor, has recently been identified as the gene that has the most common somatic point mutations in prostate cancer. SPOP ...mutations are associated with genomic alterations, indicating a role for SPOP in the maintenance of genome stability. We, and others, have recently demonstrated a critical role of SPOP in the DNA damage response (DDR), suggesting SPOP mutants may represent a subgroup of patients that have hyper sensitivity to DNA damaging therapies. However, how SPOP mutations might impact its function and their roles in the progress of prostate tumorigenesis remain to be extensively studied. Genomic studies have found that SPOP mutations are clustered within its substrate binding pocket. Of a particular interest, Serine119 is found to be frequently mutated to Asparagine (S119N). Using computational modeling, we found that Ser119 resides in the SBC-MATH binding interface and is in close contact with the non-polar residue of the SPOP-binding consensus motif. Therefore we hypothesized that phosphorylation of Serine 119 might directly affect substrate binding. First we characterized prostate cancer cells expressing this mutation and we found that they displayed a suboptimal DNA damage response with prolonged DNA repair. Using an in situ proximity ligation assay, we demonstrate that Serine 119 is essential for SPOP ionizing irradiation induced interaction with the Ataxia Telangiectasia Mutated kinase (ATM), a major hub protein in the DDR. With the evidence of SPOP being a phospho-protein, we further provide in vitro evidence that ATM phosphorylates SPOP on Serine 119 in response to DNA damage. Characterization of the functional significance of ATM-mediated SPOP phosphorylation indicates a wide range of downstream targets regulating cell cycle progression and DNA repair. Taken together, our data reveal a critical pathway linking ATM and SPOP in regulation of prostate cancer initiation and therapeutic responses to DNA damage. This also provides the first evidence of a pathophysiological relevant mutation linked to ATM phosphorylation in the DDR.
Citation Format: Joshua Fried, Rebecca Boohaker, Qinghua Zeng, Wei Zhang, Bo Xu. Characterization of the ATM-SPOP pathway in prostate cancer tumorigenesis. abstract. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 2752.
Abstract
The Speckle type Poz Protein (SPOP) is a tumor suppressor that is often mutated in prostate cancer. Mutation of SPOP is linked to genomic instability and it plays a critical role in prostate ...cancer initiation. SPOP mutations are found to be in the heterozygous state in patients. The relevance of these mutations on its protein expression has not been systematically investigated. Here we report that mutations in the center MATH domain of SPOP lead to enhanced protein stability in prostate cancer. Among the mutations, F102C, S119N, F125V and WI31G showed increased protein stability. Further we show that these mutations in the MATH domain increase half-life of SPOP protein. Interestingly, the mutant SPOPs enhanced the endogenous wild-type SPOP level. We further explored the structural insights of these SPOP mutants. We present a computational
model to predict how SPOP mutations potentially lead to conformational changes within the protein, promoting its stability. Finally, immunohistochemistry in clinical samples of prostate cancer augment our findings. Together, we highlight a subset of clinically relevant SPOP mutations that have impact on endogenous SPOP protein stability, allowing to further understand its role in prostate cancer initiation and evaluating of potentially altered therapeutic response in patients harboring these mutations.
Citation Format: Joshua Fried, Vinayak Khattar, Jinlu Ma, Qinghua Zeng, Wei Zhang, Bo Xu. Mutations in the center MATH domain of Speckle Type BTB/POZ Protein lead to enhanced proteinstability in prostate cancer abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 4448.
Understanding the functional significance of the essential elements in maintaining genomic stability provides insights into the process of tumor initiation and progression, and predicts therapeutic ...responses. One such element that has recently attracted significant attention is the Speckle-Type Poz Protein (SPOP), an E3 ubiquitin ligase adaptor protein. SPOP is frequently mutated or has altered expression in various cancers, including prostate, renal and endometrial. SPOP is involved in the regulation of proteasome-mediated degradation of several oncoproteins. Moreover, recent data also indicate SPOP's direct involvement in the DNA damage response. SPOP mutants induce alternations in the DNA damage repair pathway by promoting the error-prone Non-homologous end joining (NHEJ) pathway. SPOP has been linked with significant functions in cellular signaling pathways and cancer suppression. This mini-review will discuss recent findings regarding SPOP's role in genomic stability in the pathological setting.
Prostate cancer is one of the most common malignancies and causes of cancer related death in men. Morbidity is primarily attributed to late-stage and metastatic disease. Re-cent genomic screening ...studies have revealed that the Speckle type Poz Protein (SPOP) is the most frequently altered gene by missense mutations in prostate cancer. Interestingly, all of the identified mutations were located in the substrate binding domain of SPOP. Here, two pathways highlighting the impact of SPOP mutation on prostate cancer are pre-sented. First, evidence showing that one of the naturally occurring SPOP mutations, ser-ine 119 to asparagine (S119N), induces radiosensitivity and an apparent defect in the DNA Damage Response (DDR). The S119N mutant SPOP causes prolonged DNA re-pair, ineffective cell cycle checkpoints and reduced viability in response to ionizing radia-tion. Further, biochemical analysis of the functional significance of serine 119 demon-strated that it is required for radiation induced SPOP-ATM (Ataxia Telangiectasia) inter-action. This is further validated by studies indicating that ATM, a critical mediator of the DNA damage response, is required for radiation induced serine 119 phosphorylation. In sum, the evidence shows that ATM phosphorylation of SPOP on serine 119 is a critical step in the DDR. Second, a clinical cohort of prostate cancer patients was analyzed and it was observed that SPOP mutation is an independent predictor of metastasis. Via proteo-mic analysis candidate proteins for SPOP regulation that also play a role in metastasis were identified. It is demonstrated that SPOP interacts with and regulates ITCH protein levels. Further, the data indicates that SPOP mutation interrupts SPOP ITCH binding and leads to a subsequent accumulation of ITCH protein. Lastly, evidence demonstrated that increases in ITCH due to mutation in SPOP results in a concurrent loss of E-cadherin pro-tein expression. Together are presented two clinically relevant SPOP-dependent pathways that impact prostate cancer initiation and progression.