Targeting P21-Activated Kinase-1 for Metastatic Prostate Cancer

Somanath, Payaningal R.; Chernoff, Jonathan; Cummings, Brian S.; Prasad, Sandip M.; Homan, Harvey D.

doi:10.3390/cancers15082236

Cited by 4 publications

(3 citation statements)

References 291 publications

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“…Another interesting protein in this context is PAK1, which interacts with CTNNB1 and has already been described as a potential target for prostate cancer [ 15 ].…”

Section: Resultsmentioning

confidence: 99%

The Histogenetic Origin of Malignant Cells Predicts Their Susceptibility towards Synthetic Lethality Utilizing the TK.007 System

Pallasch,

Freytag,

Kriegs

et al. 2024

Cancers

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Background: Remarkable differences exist in the outcome of systemic cancer therapies. Lymphomas and leukemias generally respond well to systemic chemotherapies, while solid cancers often fail. We engineered different human cancer cells lines to uniformly express a modified herpes simplex virus thymidine kinase TK.007 as a suicide gene when ganciclovir (GCV) is applied, thus in theory achieving a similar response in all cell lines. Methods: Fifteen different cell lines were engineered to express the TK.007 gene. XTT-cell proliferation assays were performed and the IC50-values were calculated. Functional kinome profiling, mRNA sequencing, and bottom-up proteomics analysis with Ingenuity pathway analysis were performed. Results: GCV potency varied among cell lines, with lymphoma and leukemia cells showing higher susceptibility than solid cancer cells. Functional kinome profiling implies a contribution of the SRC family kinases and decreased overall kinase activity. mRNA sequencing highlighted alterations in the MAPK pathways and bottom-up proteomics showed differences in apoptotic and epithelial junction signaling proteins. Conclusions: The histogenetic origin of cells influenced the susceptibility of human malignant cells towards cytotoxic agents with leukemias and lymphomas being more sensitive than solid cancer cells.

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“…Another interesting protein in this context is PAK1, which interacts with CTNNB1 and has already been described as a potential target for prostate cancer [ 15 ].…”

Section: Resultsmentioning

confidence: 99%

The Histogenetic Origin of Malignant Cells Predicts Their Susceptibility towards Synthetic Lethality Utilizing the TK.007 System

Pallasch,

Freytag,

Kriegs

et al. 2024

Cancers

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“…While their Activated PAK1 is known to phosphorylate a great number of targets. While their complete inventory is beyond the scope of this review, the numerous biochemical and biological consequences of PAK1 activity have been extensively reviewed elsewhere [28,[37][38][39][40]. The involvement of many of the PAK1-regulated factors in such phenomena as cell motility, cell proliferation, and survival support the continuous interest in PAK1 among cancer researchers and has led to the recognition of this enzyme as a bona fide target for anticancer therapy [28].…”

Section: Pak1 Structure and Expression In Melanomamentioning

confidence: 99%

“…To date, there is a multitude of chemical agents that can inhibit this enzyme, yet none have received an approval for clinical use. The histories, chemical structures, specificities, and investigational status of these molecules have been extensively reviewed by others elsewhere [39,40,144]. The hurdles for the currently available compounds range from chemical instability and poor bioavailability to off-target effects and expected toxicity.…”

Section: Future Directionsmentioning

confidence: 99%

PAK1 and Therapy Resistance in Melanoma

Kichina,

Maslov,

Kandel

2023

Cells

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Malignant melanoma claims more lives than any other skin malignancy. While primary melanomas are usually cured via surgical excision, the metastatic form of the disease portents a poor prognosis. Decades of intense research has yielded an extensive armamentarium of anti-melanoma therapies, ranging from genotoxic chemo- and radiotherapies to targeted interventions in specific signaling pathways and immune functions. Unfortunately, even the most up-to-date embodiments of these therapies are not curative for the majority of metastatic melanoma patients, and the need to improve their efficacy is widely recognized. Here, we review the reports that implicate p21-regulated kinase 1 (PAK1) and PAK1-related pathways in the response of melanoma to various therapeutic modalities. Ample data suggest that PAK1 may decrease cell sensitivity to programmed cell death, provide additional stimulation to growth-promoting molecular pathways, and contribute to the creation of an immunosuppressive tumor microenvironment. Accordingly, there is mounting evidence that the concomitant inhibition of PAK1 enhances the potency of various anti-melanoma regimens. Overall, the available information suggests that a safe and effective inhibition of PAK1-dependent molecular processes would enhance the potency of the currently available anti-melanoma treatments, although considerable challenges in implementing such strategies still exist.

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