Your search keyword '"Tepper, Clifford G"' showing total 6 results

1. KSHV vIL-6 enhances inflammatory responses by epigenetic reprogramming.

Author

Inagaki, Tomoki, Wang, Kang-Hsin, Kumar, Ashish, Izumiya, Chie, Miura, Hiroki, Komaki, Somayeh, Davis, Ryan R., Tepper, Clifford G., Katano, Harutaka, Shimoda, Michiko, and Izumiya, Yoshihiro

Subjects

INFLAMMATION, RNA polymerase II, EPIGENETICS, HISTONES, CYTOKINE release syndrome, TISSUE culture

Abstract

Kaposi sarcoma-associated herpesvirus (KSHV) inflammatory cytokine syndrome (KICS) is a newly described chronic inflammatory disease condition caused by KSHV infection and is characterized by high KSHV viral load and sustained elevations of serum KSHV-encoded IL-6 (vIL-6) and human IL-6 (hIL-6). KICS has significant immortality and greater risks of other complications, including malignancies. Although prolonged inflammatory vIL-6 exposure by persistent KSHV infection is expected to have key roles in subsequent disease development, the biological effects of prolonged vIL-6 exposure remain elusive. Using thiol(SH)-linked alkylation for the metabolic (SLAM) sequencing and Cleavage Under Target & Release Using Nuclease analysis (CUT&RUN), we studied the effect of prolonged vIL-6 exposure in chromatin landscape and resulting cytokine production. The studies showed that prolonged vIL-6 exposure increased Bromodomain containing 4 (BRD4) and histone H3 lysine 27 acetylation co-occupancies on chromatin, and the recruitment sites were frequently co-localized with poised RNA polymerase II with associated enzymes. Increased BRD4 recruitment on promoters was associated with increased and prolonged NF-κB p65 binding after the lipopolysaccharide stimulation. The p65 binding resulted in quicker and sustained transcription bursts from the promoters; this mechanism increased total amounts of hIL-6 and IL-10 in tissue culture. Pretreatment with the BRD4 inhibitors, OTX015 and MZ1, eliminated the enhanced inflammatory cytokine production. These findings suggest that persistent vIL-6 exposure may establish a chromatin landscape favorable for the reactivation of inflammatory responses in monocytes. This epigenetic memory may explain the greater risk of chronic inflammatory disease development in KSHV-infected individuals. Author summary: Combined and continuous cytokine stimulation triggers transcription reprogramming and is often used for specific tissue development. Continuous vIL-6 exposure occurs in KSHV-infected patients and leads to inflammatory cytokine storm with high mortality. However, possible epigenetic reprogramming by the vIL-6 and its association with pathogenesis remain unclear. Here, we demonstrate the establishment of a new chromatin landscape mediated by BRD4 through prolonged vIL-6 exposure, contributing to more robust and rapid transcription and increased cytokine production. Inhibition of BRD4 suppressed this inflammatory response. Our results indicate that targeting the epigenetic effect of viral cytokines may lead to novel therapies for KSHV-induced inflammatory cytokine storms. [ABSTRACT FROM AUTHOR]

Published

2023

2. Virally encoded interleukin-6 facilitates KSHV replication in monocytes and induction of dysfunctional macrophages.

Author

Shimoda, Michiko, Inagaki, Tomoki, Davis, Ryan R., Merleev, Alexander, Tepper, Clifford G., Maverakis, Emanual, and Izumiya, Yoshihiro

Subjects

MONOCYTES, KILLER cells, KAPOSI'S sarcoma-associated herpesvirus, KAPOSI'S sarcoma, ONCOGENIC DNA viruses, MACROPHAGES, LINCRNA

Abstract

Kaposi's sarcoma-associated herpesvirus (KSHV) is an oncogenic double-stranded DNA virus and the etiologic agent of Kaposi's sarcoma and hyperinflammatory lymphoproliferative disorders. Understanding the mechanism by which KSHV increases the infected cell population is crucial for curing KSHV-associated diseases. Using scRNA-seq, we demonstrate that KSHV preferentially infects CD14+ monocytes, sustains viral lytic replication through the viral interleukin-6 (vIL-6), which activates STAT1 and 3, and induces an inflammatory gene expression program. To study the role of vIL-6 in monocytes upon KSHV infection, we generated recombinant KSHV with premature stop codon (vIL-6(-)) and its revertant viruses (vIL-6(+)). Infection of the recombinant viruses shows that both vIL-6(+) and vIL-6(-) KSHV infection induced indistinguishable host anti-viral response with STAT1 and 3 activations in monocytes; however, vIL-6(+), but not vIL-6(-), KSHV infection promoted the proliferation and differentiation of KSHV-infected monocytes into macrophages. The macrophages derived from vIL-6(+) KSHV infection showed a distinct transcriptional profile of elevated IFN-pathway activation with immune suppression and were compromised in T-cell stimulation function compared to those from vIL-6(-) KSHV infection or uninfected control. Notably, a viral nuclear long noncoding RNA (PAN RNA), which is required for sustaining KSHV gene expression, was substantially reduced in infected primary monocytes upon vIL-6(-) KSHV infection. These results highlight the critical role of vIL-6 in sustaining KSHV transcription in primary monocytes. Our findings also imply a clever strategy in which KSHV utilizes vIL-6 to secure its viral pool by expanding infected monocytes via differentiating into longer-lived dysfunctional macrophages. This mechanism may facilitate KSHV to escape from host immune surveillance and to support a lifelong infection. Author summary: Kaposi's sarcoma-associated virus (KSHV) is the causative agent of highly inflammatory diseases that include Kaposi's sarcoma and KSHV-inflammatory cytokine syndrome (KICS). Macrophages are important immune cells that regulate inflammation by stimulating both innate and adaptive immune systems. A small fraction of monocytes differentiates into macrophages to acquire a longer life span and migrate to residential areas. Deregulation of macrophage functions weakens host immune defense mechanisms, allowing secondary infections resulting in prolonged inflammation. Here, we demonstrate that KSHV infection to monocytes facilitates their transition into macrophages; however, those infected macrophages have impaired immune stimulatory function. Such tradition depends on the expression of KSHV vIL-6, a virally encoded IL-6 homolog. Prolonged vIL-6 stimulation in culture also induced a similar phenotype in monocytes. These results suggest that continuous stimulation by KSHV-derived vIL-6 deregulates host macrophage functions. This mechanism may be associated with hyperinflammatory phenotypes seen in KSHV-associated diseases. [ABSTRACT FROM AUTHOR]

Published

2023

3. Development and Characterization of Bladder Cancer Patient-Derived Xenografts for Molecularly Guided Targeted Therapy.

Author

Pan, Chong-xian, Zhang, Hongyong, Tepper, Clifford G., Lin, Tzu-yin, Davis, Ryan R., Keck, James, Ghosh, Paramita M., Gill, Parkash, Airhart, Susan, Bult, Carol, Gandara, David R., Liu, Edison, and de Vere White, Ralph W.

Subjects

BLADDER cancer patients, XENOGRAFTS, BLADDER cancer treatment, FIBROBLAST growth factor receptors, CISPLATIN

Abstract

Background: The overarching goal of this project is to establish a patient-derived bladder cancer xenograft (PDX) platform, annotated with deep sequencing and patient clinical information, to accelerate the development of new treatment options for bladder cancer patients. Herein, we describe the creation, initial characterization and use of the platform for this purpose. Methods and Findings: Twenty-two PDXs with annotated clinical information were established from uncultured unselected clinical bladder cancer specimens in immunodeficient NSG mice. The morphological fidelity was maintained in PDXs. Whole exome sequencing revealed that PDXs and parental patient cancers shared 92–97% of genetic aberrations, including multiple druggable targets. For drug repurposing, an EGFR/HER2 dual inhibitor lapatinib was effective in PDX BL0440 (progression-free survival or PFS of 25.4 days versus 18.4 days in the control, p = 0.007), but not in PDX BL0269 (12 days versus 13 days in the control, p = 0.16) although both expressed HER2. To screen for the most effective MTT, we evaluated three drugs (lapatinib, ponatinib, and BEZ235) matched with aberrations in PDX BL0269; but only a PIK3CA inhibitor BEZ235 was effective (p<0.0001). To study the mechanisms of secondary resistance, a fibroblast growth factor receptor 3 inhibitor BGJ398 prolonged PFS of PDX BL0293 from 9.5 days of the control to 18.5 days (p<0.0001), and serial biopsies revealed that the MAPK/ERK and PIK3CA-AKT pathways were activated upon resistance. Inhibition of these pathways significantly prolonged PFS from 12 day of the control to 22 days (p = 0.001). To screen for effective chemotherapeutic drugs, four of the first six PDXs were sensitive to the cisplatin/gemcitabine combination, and chemoresistance to one drug could be overcome by the other drug. Conclusion: The PDX models described here show good correlation with the patient at the genomic level and known patient response to treatment. This supports further evaluation of the PDXs for their ability to accurately predict a patient’s response to new targeted and combination strategies for bladder cancer. [ABSTRACT FROM AUTHOR]

Published

2015

4. Abnormal Mammary Development in 129:STAT1-Null Mice is Stroma-Dependent.

Author

Chen, Jane Q., Mori, Hidetoshi, Cardiff, Robert D., Trott, Josephine F., Hovey, Russell C., Hubbard, Neil E., Engelberg, Jesse A., Tepper, Clifford G., Willis, Brandon J., Khan, Imran H., Ravindran, Resmi K., Chan, Szeman R., Schreiber, Robert D., and Borowsky, Alexander D.

Subjects

MAMMARY glands, STROMAL cells, LABORATORY mice, ESTROGEN receptors, MORPHOGENESIS

Abstract

Female 129:Stat1-null mice (129S6/SvEvTac-Stat1tm1Rds homozygous) uniquely develop estrogen-receptor (ER)-positive mammary tumors. Herein we report that the mammary glands (MG) of these mice have altered growth and development with abnormal terminal end buds alongside defective branching morphogenesis and ductal elongation. We also find that the 129:Stat1-null mammary fat pad (MFP) fails to sustain the growth of 129S6/SvEv wild-type and Stat1-null epithelium. These abnormalities are partially reversed by elevated serum progesterone and prolactin whereas transplantation of wild-type bone marrow into 129:Stat1-null mice does not reverse the MG developmental defects. Medium conditioned by 129:Stat1-null epithelium-cleared MFP does not stimulate epithelial proliferation, whereas it is stimulated by medium conditioned by epithelium-cleared MFP from either wild-type or 129:Stat1-null females having elevated progesterone and prolactin. Microarrays and multiplexed cytokine assays reveal that the MG of 129:Stat1-null mice has lower levels of growth factors that have been implicated in normal MG growth and development. Transplanted 129:Stat1-null tumors and their isolated cells also grow slower in 129:Stat1-null MG compared to wild-type recipient MG. These studies demonstrate that growth of normal and neoplastic 129:Stat1-null epithelium is dependent on the hormonal milieu and on factors from the mammary stroma such as cytokines. While the individual or combined effects of these factors remains to be resolved, our data supports the role of STAT1 in maintaining a tumor-suppressive MG microenvironment. [ABSTRACT FROM AUTHOR]

Published

2015

5. Modeling Truncated AR Expression in a Natural Androgen Responsive Environment and Identification of RHOB as a Direct Transcriptional Target.

Author

Hui-Chi Tsai, Boucher, David L., Martinez, Anthony, Tepper, Clifford G., and Hsing-Jien Kung

Subjects

HYDROGEN, BACTERIA, ALGAE, ANTIOXIDANTS, SALINITY, ARABIDOPSIS

Abstract

Recent studies identifying putative truncated androgen receptor isoforms with ligand-independent activity have shed new light on the acquisition of androgen depletion independent (ADI) growth of prostate cancer. In this study, we present a model system in which a C-terminally truncated variant of androgen receptor (TC-AR) is inducibly expressed in LNCaP, an androgen-dependent cell line, which expresses little truncated receptor. We observed that when TC-AR is overexpressed, the endogenous full length receptor (FL-AR) is transcriptionally downmodulated. This in essence allows us to "replace" FL-AR with TC-AR and compare their individual properties in exactly the same genetic and cellular background, which has not been performed before. We show that the TC-AR translocates to the nucleus, activates transcription of AR target genes in the absence of DHT and is sufficient to confer ADI growth to the normally androgen dependent LNCaP line. We also show that while there is significant overlap in the genes regulated by FL- and TC-AR there are also differences in the respective suites of target genes with each AR form regulating genes that the other does not. Among the genes uniquely activated by TC-AR is RHOB which is shown to be involved in the increased migration and morphological changes observed in LN/TC-AR, suggesting a role of RHOB in the regulation of androgen-independent behavior of prostate cancer cells. [ABSTRACT FROM AUTHOR]

Published

2012

6. Modeling truncated AR expression in a natural androgen responsive environment and identification of RHOB as a direct transcriptional target.

Author

Tsai HC, Boucher DL, Martinez A, Tepper CG, and Kung HJ

Subjects

Androgens pharmacology, Cell Line, Tumor, Cell Movement genetics, Cell Nucleus metabolism, Chromatin genetics, Chromatin metabolism, Dihydrotestosterone metabolism, Dihydrotestosterone pharmacology, Doxycycline pharmacology, Gene Expression Regulation, Neoplastic drug effects, Gene Knockdown Techniques, Humans, Male, Protein Binding, Protein Multimerization, Protein Transport, RNA, Messenger genetics, RNA, Messenger metabolism, Receptors, Androgen chemistry, Receptors, Androgen metabolism, Reproducibility of Results, Response Elements, rhoB GTP-Binding Protein metabolism, Androgens metabolism, Prostatic Neoplasms genetics, Prostatic Neoplasms metabolism, Receptors, Androgen genetics, Transcription, Genetic, rhoB GTP-Binding Protein genetics

Abstract

Recent studies identifying putative truncated androgen receptor isoforms with ligand-independent activity have shed new light on the acquisition of androgen depletion independent (ADI) growth of prostate cancer. In this study, we present a model system in which a C-terminally truncated variant of androgen receptor (TC-AR) is inducibly expressed in LNCaP, an androgen-dependent cell line, which expresses little truncated receptor. We observed that when TC-AR is overexpressed, the endogenous full length receptor (FL-AR) is transcriptionally downmodulated. This in essence allows us to "replace" FL-AR with TC-AR and compare their individual properties in exactly the same genetic and cellular background, which has not been performed before. We show that the TC-AR translocates to the nucleus, activates transcription of AR target genes in the absence of DHT and is sufficient to confer ADI growth to the normally androgen dependent LNCaP line. We also show that while there is significant overlap in the genes regulated by FL- and TC-AR there are also differences in the respective suites of target genes with each AR form regulating genes that the other does not. Among the genes uniquely activated by TC-AR is RHOB which is shown to be involved in the increased migration and morphological changes observed in LN/TC-AR, suggesting a role of RHOB in the regulation of androgen-independent behavior of prostate cancer cells.

Published

2012