CD8 + T Cells Exhibit an Exhausted Phenotype in Hemophagocytic Lymphohistiocytosis.

PURPOSE: Hemophagocytic lymphohistiocytosis (HLH) is a hyperinflammatory syndrome mainly caused by uncontrolled activation of antigen presenting cells and CD8 T cells. CD8 T cell exhaustion is a known phenomenon in chronic viral infections and cancer. However, the role of T cell exhaustion is not yet identified in HLH in the background of persistent inflammation. So, currently, we have characterized the CD8 T cells using flow cytometry to understand the phenomenon of exhaustion in these cells in HLH. METHODS: We have comprehensively evaluated lymphocyte subsets and characterized CD8 T cells using immunophenotypic markers like PD1, TIM3, LAG3, Ki67, Granzyme B, etc. in a cohort of 21 HLH patients. Effector cytokine secretion and degranulation by CD8 T cells are also studied. RESULTS: Our findings indicate skewed lymphocyte subsets and aberrantly activated CD8 T cells in HLH. CD8 T cells exhibit significantly increased expression of PD1, TIM3, and LAG3 prominently in primary HLH as compared to controls. PD1 + CD8 T cells express elevated levels of Granzyme B and Ki67. Moreover, CD8 T cells are hypofunctional as evidenced by significantly reduced cytokine secretion and compromised CD107a degranulation. CONCLUSION: The study has revealed that CD8 + cytotoxic T lymphocytes from HLH patients exhibited high expression of exhaustion markers with overall impaired function. To the best of our understanding, this is the first report suggesting functional exhaustion of CD8 T cells in both primary and secondary HLH. Future studies to understand the association of exhaustion with disease outcome are needed for its probable therapeutic implementation.

Tumor suppressor protein p53 exerts negative transcriptional regulation on human sodium iodide symporter gene expression in breast cancer.

PURPOSE: Aberrant expression of human sodium iodide symporter (NIS) in breast cancer (BC) is well documented but the transcription factors (TF) regulating its aberrant expression is poorly known. We identify the presence of three p53 binding sites on the human NIS promoter sequence by conducting genome-wide TF analysis, and further investigate their regulatory role. METHODS: The differences in transcription and translation were measured by real-time PCR, luciferase reporter assay, site-directed mutagenesis, in vivo optical imaging, and chromatin immunoprecipitation. The relation of NIS and p53 in clinical samples was judged by TCGA data analysis and immunohistochemistry. RESULTS: Overexpression of wild-type p53 as a transgene or pharmacological activation by doxorubicin drug treatment shows significant suppression of NIS transcription in multiple BC cell types which also results in lowered NIS protein content and cellular iodide intake. NIS repression by activated p53 is further confirmed by non-invasive bioluminescence imaging in live cell and orthotropic tumor model. Abrogation of p53-binding sites by directional mutagenesis confirms reversal of transcriptional activity in wild-type p53-positive BC cells. We also observe direct binding of p53 to these sites on the human NIS promoter. Importantly, TCGA data analysis of NIS and p53 co-expression registers an inverse relationship between the two candidates. CONCLUSION: Our data for the first time highlight the role of p53 as a negative regulator of functional NIS expression in BC, where the latter is a potential targeted radioiodine therapy candidate. Thus, the study provides an important insight into prospective clinical application of this approach that may significantly impact the patient with mutant versus wild-type p53 profile.

Enhancement of human sodium iodide symporter gene therapy for breast cancer by HDAC inhibitor mediated transcriptional modulation.

The aberrant expression of human sodium iodide symporter (NIS) in breast cancer (BC) has raised the possibility of using targeted radioiodide therapy. Here we investigate modulation of endogenous, functional NIS expression by histone deacetylase inhibitors (HDACi) in vitro and in vivo. Luciferase reporter based initial screening of six different HDACi shows 2-10 fold enhancement of NIS promoter activity in majority of the cell types tested. As a result of drug treatment, endogenous NIS transcript and protein shows profound induction in BC cells. To get an insight on the mechanism of such transcriptional activation, role of Stat4, CREB and other transcription factors are revealed by transcription factor profiling array. Further, NIS-mediated intracellular iodide uptake also enhances substantially (p < 0.05) signifying functional relevance of the transcriptional modulation strategy. Gamma camera imaging confirms 30% higher uptake in VPA or NaB treated BC tumor xenograft. Corroborating with such functional impact of NIS, significant reduction in cell survival (p < 0.005) is observed in VPA, NaB or CI994 drug and (131)I combination treatment in vivo indicating effective radioablation. Thus, for the first time this study reveals the mechanistic basis and demonstrates functional relevance of HDACi pre-treatment strategy in elevating NIS gene therapy approach for BC management in clinic.