Anupma Nayak scite author profile

Brain metastasis, the most lethal form of melanoma and carcinoma, is the consequence of favorable interactions between the invading cancer cells and the brain cells. Peroxisome proliferator-activated receptor γ (PPARγ) has ambiguous functions in cancer development, and its relevance in advanced brain metastasis remains unclear. Here, we demonstrate that astrocytes, the unique brain glial cells, activate PPARγ in brain metastatic cancer cells. PPARγ activation enhances cell proliferation and metastatic outgrowth in the brain. Mechanistically, astrocytes have a high content of polyunsaturated fatty acids that act as "donors" of PPARγ activators to the invading cancer cells. In clinical samples, PPARγ signaling is signifi cantly higher in brain metastatic lesions. Notably, systemic administration of PPARγ antagonists signifi cantly reduces brain metastatic burden in vivo. Our study clarifi es a prometastatic role for PPARγ signaling in cancer metastasis in the lipid-rich brain microenvironment and argues for the use of PPARγ blockade to treat brain metastasis. SIGNIFICANCE: Brain-tropic cancer cells take advantage of the lipid-rich brain microenvironment to facilitate their proliferation by activating PPARγ signaling. This protumor effect of PPARγ in advanced brain metastases is in contrast to its antitumor function in carcinogenesis and early metastatic steps, indicating that PPARγ has diverse functions at different stages of cancer development.

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Estrogen-dependent DLL1-mediated Notch signaling promotes luminal breast cancer

Kumar

Srivastav

Wilkes

et al. 2018

Oncogene

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Aberrant Notch signaling is implicated in several cancers, including breast cancer. However, the mechanistic details of the specific receptors and function of ligand-mediated Notch signaling that promote breast cancer remains elusive. In our studies we show that DLL1, a Notch signaling ligand, is significantly overexpressed in ERα+ luminal breast cancer. Intriguingly, DLL1 overexpression correlates with poor prognosis in ERα+ luminal breast cancer, but not in other subtypes of breast cancer. In addition, this effect is specific to DLL1, as other Notch ligands (DLL3, JAGGED1, and JAGGED2) do not influence the clinical outcome of ERα+ patients. Genetic studies show that DLL1-mediated Notch signaling in breast cancer is important for tumor cell proliferation, angiogenesis, and cancer stem cell function. Consistent with prognostic clinical data, we found the tumor-promoting function of DLL1 is exclusive to ERα+ luminal breast cancer, as loss of DLL1 inhibits both tumor growth and lung metastasis of luminal breast cancer. Importantly, we find that estrogen signaling stabilizes DLL1 protein by preventing its proteasomal and lysososmal degradations. Moreover, estrogen inhibits ubiquitination of DLL1. Together, our results highlight an unexpected and novel subtype-specific function of DLL1 in promoting luminal breast cancer that is regulated by estrogen signaling. Our studies also emphasize the critical role of assessing subtype-specific mechanisms driving tumor growth and metastasis to generate effective subtype-specific therapeutics.

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Genomic Signatures Predict the Immunogenicity of BRCA-Deficient Breast Cancer

Kraya

Maxwell

Wubbenhorst

et al. 2019

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Purpose: Breast cancers with BRCA1/2 alterations have a relatively high mutational load, suggesting that immune checkpoint blockade may be a potential treatment option. However, the degree of immune cell infiltration varies widely, and molecular features contributing to this variability remain unknown.Experimental Design: We hypothesized that genomic signatures might predict immunogenicity in BRCA1/2 breast cancers. Using The Cancer Genome Atlas (TCGA) genomic data, we compared breast cancers with (89) and without (770) either germline or somatic BRCA1/2 alterations. We also studied 35 breast cancers with germline BRCA1/2 mutations from Penn using WES and IHC.Results: We found that homologous recombination deficiency (HRD) scores were negatively associated with expressionbased immune indices [cytolytic index (P ¼ 0.04), immune ESTIMATE (P ¼ 0.002), type II IFN signaling (P ¼ 0.002)] despite being associated with a higher mutational/neoantigen burden, in BRCA1/2 mutant breast cancers. Further, absence of allele-specific loss of heterozygosity (LOH negative; P ¼ 0.01) or subclonality (P ¼ 0.003) of germline and somatic BRCA1/2 mutations, respectively, predicted for heightened cytolytic activity. Gene set analysis found that multiple innate and adaptive immune pathways that converge on NF-kB may contribute to this heightened immunogenicity. IHC of Penn breast cancers demonstrated increased CD45 þ (P ¼ 0.039) and CD8 þ infiltrates (P ¼ 0.037) and increased PDL1 expression (P ¼ 0.012) in HRD-low or LOH-negative cancers. Triple-negative cancers with low HRD had far greater CD8 þ T cells (P ¼ 0.0011) and Perforin 1 expression (P ¼ 0.014) compared with hormone receptor-positive HRD-high cancers.Conclusions: HRD scores and hormone receptor subtype are predictive of immunogenicity in BRCA1/2 breast cancers and may inform the design of optimal immune therapeutic strategies.

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PTK6 Inhibition Suppresses Metastases of Triple-Negative Breast Cancer via SNAIL-Dependent E-Cadherin Regulation

Ito

Park

Nayak

et al. 2016

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Patients with triple-negative breast cancers (TNBC) are at high risk for recurrent or metastatic disease despite standard treatment, underscoring the need for novel therapeutic targets and strategies. Here we report that protein tyrosine kinase 6 (PTK6) is expressed in approximately 70% of TNBCs where it acts to promote survival and metastatic lung colonization. PTK6 downregulation in mesenchymal TNBC cells suppressed migration and three-dimensional culture growth, and enhanced anoikis, resistance to which is considered a prerequisite for metastasis. PTK6 downregulation restored E-cadherin levels via proteasome-dependent degradation of the E-cadherin repressor SNAIL. Beyond being functionally required in TNBC cells, kinase-active PTK6 also suppressed E-cadherin expression, promoted cell migration, and increased levels of mesenchymal markers in nontransformed MCF10A breast epithelial cells, consistent with a role in promoting an epithelial-mesenchymal transition (EMT). SNAIL downregulation and E-cadherin upregulation mediated by PTK6 inhibition induced anoikis, leading to impaired metastatic lung colonization in vivo. Finally, effects of PTK6 downregulation were phenocopied by treatment with a recently developed PTK6 kinase inhibitor, further implicating kinase activity in regulation of EMT and metastases. Our findings illustrate the clinical potential for PTK6 inhibition to improve treatment of patients with high-risk TNBC.Cancer Res; 76(15); 4406-17. Ó2016 AACR.

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Anupma Nayak

ΔNp63-driven recruitment of myeloid-derived suppressor cells promotes metastasis in triple-negative breast cancer

Polyunsaturated Fatty Acids from Astrocytes Activate PPARγ Signaling in Cancer Cells to Promote Brain Metastasis

Estrogen-dependent DLL1-mediated Notch signaling promotes luminal breast cancer

Genomic Signatures Predict the Immunogenicity of BRCA-Deficient Breast Cancer

PTK6 Inhibition Suppresses Metastases of Triple-Negative Breast Cancer via SNAIL-Dependent E-Cadherin Regulation

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