Browsing by Subject "HUNK"

Now showing 1 - 7 of 7
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    Characterization of a Novel Hunk Inhibitor in HER2+ Breast Cancer
    (2024-07) Dilday, Tinslee Y.; Yeh, Elizabeth; Fehrenbacher, Jill; Brustovetsy, Nickolay; Safa, Ahmad; Sankar, Uma
    Human Epidermal Growth Factor Receptor 2 (HER2)-targeted agents have proven to be effective, however, the development of resistance to these agents has become an obstacle in treating HER2+ breast cancer. Prior evidence implicates Hormonally Upregulated Neu-associated Kinase (HUNK) as an anti-cancer target for primary and resistant HER2+ breast cancers. An inhibitor Staurosporine (STU) has been identified as a HUNK inhibitor in HER2+ breast cancer. While STU was determined as a promising tool for inhibiting HUNK, it is a broad-spectrum kinase inhibitor and has not moved forward clinically. Therefore, identifying a more selective inhibitor of HUNK could be critical for targeting HUNK in HER2+ breast and understanding mechanisms by which HUNK promotes resistance to HER2-inhibitors. Specifically, HUNK has been implicated in promoting autophagy as a resistance mechanism in HER2+ breast cancer. Previously, we have identified that HUNK binds and phosphorylates an autophagy inhibitory protein, Rubicon, at Serine (S) 92 in 293T cells. This phosphorylation event causes Rubicon to switch to being an autophagy promoter. However, the role that Rubicon S92 plays in HER2+ breast cancer has yet to be examined. In this study, a novel inhibitor of HUNK is characterized alongside Rubicon S92 phosphorylation. This study establishes that HUNK-mediated phosphorylation of Rubicon at S92 promotes tumorigenesis in HER2/neu+ breast cancer. HUNK inhibition prevents S92 Rubicon phosphorylation in HER2/neu+ breast cancer models and inhibits both autophagy and tumorigenesis. This study characterizes a downstream phosphorylation event as a measure of HUNK activity and identifies a novel HUNK inhibitor that has meaningful efficacy toward HER2+ breast cancer.
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    HUNK as a key regulator of tumor-associated macrophages in triple negative breast cancer
    (Taylor & Francis, 2024-06-05) Ramos Solis, Nicole; Cannon, Anthony; Dilday, Tinslee; Abt, Melissa; Oblak, Adrian L.; Soloff, Adam C.; Kaplan, Mark H.; Yeh, Elizabeth S.; Pharmacology and Toxicology, School of Medicine
    Triple-negative breast cancer (TNBC) lacks the expression of estrogen receptor (ER), progesterone receptor (PR), and human epidermal growth factor receptor 2 (HER2). TNBC tumors are not sensitive to endocrine therapy, and standardized TNBC treatment regimens are lacking. TNBC is a more immunogenic subtype of breast cancer, making it more responsive to immunotherapy intervention. Tumor-associated macrophages (TAMs) constitute one of the most abundant immune cell populations in TNBC tumors and contribute to cancer metastasis. This study examines the role of the protein kinase HUNK in tumor immunity. Gene expression analysis using NanoString's nCounter PanCancer Immune Profiling panel identified that targeting HUNK is associated with changes in the IL-4/IL-4 R cytokine signaling pathway. Experimental analysis shows that HUNK kinase activity regulates IL-4 production in mammary tumor cells, and this regulation is dependent on STAT3. In addition, HUNK-dependent regulation of IL-4 secreted from tumor cells induces polarization of macrophages into an M2-like phenotype associated with TAMs. In return, IL-4 induces cancer metastasis and macrophages to produce epidermal growth factor. These findings delineate a paracrine signaling exchange between tumor cells and TAMs regulated by HUNK and dependent on IL-4/IL-4 R. This highlights the potential of HUNK as a target for reducing TNBC metastasis through modulation of the TAM population.
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    HUNK as an Immune Regulator of Triple Negative Breast Cancer
    (2024-05) Ramos Solis, Nicole; Yeh, Elizabeth; Arrizabalaga, Gustavo; Fehrenbacher, Jill; Cook-Mills, Joan; Jerde, Travis J.
    Triple-negative breast cancer (TNBC) is a subtype of breast cancer characterized by the absence of estrogen receptor (ER), progesterone receptor (PR), and human epidermal growth factor receptor 2 (HER2) expression. Unlike other breast cancer types, TNBC tumors do not respond to endocrine therapy, and standardized treatment protocols for TNBC are currently unavailable. TNBC is recognized as a more metastatic, aggressive, and immunogenic subtype of breast cancer, rendering it to be more receptive to immunotherapy. Among the immune cell populations abundant in TNBC tumors, tumor-associated macrophages (TAMs) are particularly more prevalent and are particularly known to play a role in cancer metastasis. This work focuses on and investigates the involvement of the protein kinase HUNK in tumor immunity. With the use of gene expression analysis, such as NanoString's nCounter PanCancer Immune Profiling panel, we found that targeting HUNK is associated with alterations in the IL-4/IL-4R cytokine signaling pathway. Experimental analysis and work demonstrated that HUNK kinase activity regulates IL-4 production in mammary tumor cells, and this regulation is dependent on STAT3. Furthermore, in vivo, analysis shows that HUNK-dependent control of IL-4 secretion from tumor cells leads to the polarization of macrophages into an M2-like phenotype, and consequently, IL-4 induction promotes cancer metastasis and prompts macrophage's metastatic capacities. These findings underscore HUNK as a potential therapeutic target for mitigating TNBC metastasis by modulating the TAM population.
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    HUNK Gene Alterations in Breast Cancer
    (MDPI, 2022-11-29) Ramos-Solis, Nicole; Dilday, Tinslee; Kritikos, Alex E.; Yeh, Elizabeth S.; Pharmacology and Toxicology, School of Medicine
    Hormonally upregulated neu-associated kinase (HUNK) is a serine/threonine (S/T) protein kinase related to the adenosine monophosphate-activated protein kinase (AMPK) family of kinases. HUNK was originally discovered using a screen to identify kinases expressed in the mouse mammary gland. Therefore, the majority of studies to date have been carried out in models specific to this tissue, and the kinase was named to reflect its mammary gland-specific physiology and pathology. Prior studies show a clear pathogenic role for HUNK in breast cancer. HUNK is upregulated in response to oncogenic HER2/neu and Akt, and there is strong evidence that HUNK is critical for the survival of breast cancer cells. Further evidence shows that inhibiting HUNK using a variety of breast cancer models, including those that are resistant, inhibits tumorigenesis and metastasis. However, HUNK alterations are infrequent. Here, the incidence and consequence of HUNK alterations in breast cancer is reviewed using data mined from the online database cBioPortal and considered in relation to prior research studies.
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    HUNK Phosphorylates Rubicon to Support Autophagy
    (MDPI, 2019-11-19) Zambrano, Joelle N.; Eblen, Scott T.; Abt, Melissa; Rhett, J. Matthew; Muise-Helmericks, Robin; Yeh, Elizabeth S.; Pharmacology and Toxicology, School of Medicine
    Background: Autophagy is a catabolic cellular recycling pathway that is essential for maintaining intracellular homeostasis. Autophagosome formation is achieved via the coordination of the Beclin-1 protein complex. Rubicon is a Beclin-1 associated protein that suppresses autophagy by impairing the activity of the class III PI3K, Vps34. However, very little is known about the molecular mechanisms that regulate Rubicon function. Methods: In this study, co-immunoprecipitation and kinase assays were used to investigate the ability of Hormonally Upregulated Neu-associated Kinase (HUNK) to bind to and phosphorylate Rubicon. LC3B was monitored by immunofluorescence and immunoblotting to determine whether phosphorylation of Rubicon by HUNK controls the autophagy suppressive function of Rubicon. Results: Findings from this study identify Rubicon as a novel substrate of HUNK and show that phosphorylation of Rubicon inhibits its function, promoting autophagy.
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    HUNK Signaling in Metastatic Breast Cancer
    (Impact Journals, 2020-05-05) Dilday, Tinslee; Ramos, Nicole; Yeh, Elizabeth; Pharmacology and Toxicology, School of Medicine
    Once metastatic disease has occurred, there is no cure for breast cancer. Consequently, identifying factors that promote and support breast cancer metastasis is critical for understanding how to pharmacologically target this process. Hormonally up-regulated neu-associated kinase (HUNK) is a serine/threonine protein kinase related to the sucrose non-fermenting-1 (Snf-1)/5’ adenosine monophosphate-activated protein kinase (AMPK) family of kinases. HUNK has been found to play a role in breast cancer metastasis. However, conflicting reports indicate HUNK is a metastasis promoting factor as well as an inhibiting factor. Our group recently provided evidence that supports the conclusion that HUNK is a metastasis promoting factor by showing that HUNK regulates breast cancer metastasis through phosphorylation of EGFR. Here, we summarize our findings and discuss their implications toward pharmacological targeting of HUNK in breast cancer.
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    Identification and characterization of a potent and selective HUNK inhibitor for treatment of HER2+ breast cancer
    (Elsevier, 2024) Dilday, Tinslee; Abt, Melissa; Ramos-Solís, Nicole; Dayal, Neetu; Larocque, Elizabeth; Oblak, Adrian L.; Sintim, Herman O.; Yeh, Elizabeth S.; Pharmacology and Toxicology, School of Medicine
    Human epidermal growth factor receptor 2 (HER2)-targeted agents have proven to be effective, however, the development of resistance to these agents has become an obstacle in treating HER2+ breast cancer. Evidence implicates HUNK as an anti-cancer target for primary and resistant HER2+ breast cancers. In this study, a selective inhibitor of HUNK is characterized alongside a phosphorylation event in a downstream substrate of HUNK as a marker for HUNK activity in HER2+ breast cancer. Rubicon has been established as a substrate of HUNK that is phosphorylated at serine (S) 92. Findings indicate that HUNK-mediated phosphorylation of Rubicon at S92 promotes both autophagy and tumorigenesis in HER2/neu+ breast cancer. HUNK inhibition prevents Rubicon S92 phosphorylation in HER2/neu+ breast cancer models and inhibits tumorigenesis. This study characterizes a downstream phosphorylation event as a measure of HUNK activity and identifies a selective HUNK inhibitor that has meaningful efficacy toward HER2+ breast cancer.