TERT Expression Research Articles

NF-κB-activated oncogene inhibition strategy for cancer gene therapy.

NF-κB is a promising target for cancer treatment because of its overactivation in almost all cancers but countless NF-κB inhibitors rarely became clinical drugs due to side effects. In contrast to traditional cancer treatments aimed at inhibiting NF-κB activity, this study develop a novel approach termed HOPE, which focuses on activating the exogenous effector gene CRISPR-Cas13a within cancer cells, achieved by utilizing the NF-κB-specific promoter DMP previously constructed, then targets and suppresses the expression of oncogenes TERT, PLK1, KRAS and MYC at mRNA level. We evaluated the antitumour effects of HOPE in various cultured cells and confirmed it could induce obvious the death of cancer cells without affecting normal cells. By packaging HOPE into adeno-associated virus (AAV) and intravenously injected it to treat mice that were subcutaneously transplanted with colorectal cancer. This validated that rAAV-HOPE could significantly inhibit tumour growth without side effects. Based on the scRNA-seq data, we observed that HOPE could activate the immune system and decrease the proportion of cancer cells, particularly reducing the stemness of cancer cells. This study elucidates an important role of HOPE in inhibiting cancer cell growth both in vitro and in vivo, additionally provides a novel therapeutic technology for cancer gene therapy.

BRAF-induced EHF expression affects TERT in aggressive papillary thyroid cancer.

BRAFV600E and TERT promoter mutations in papillary thyroid carcinoma (PTC) have a synergistic effect on prognosis. This effect is believed to arise from MAPK activation triggered by BRAFV600E, leading to the upregulation of ETS transcription factors that bind to the mutant TERT promoter. To explore the role of ETS factors in relation to clinical features, BRAFV600E and TERT promoter mutations in PTC. Transcriptomic data for 28 ETS factors were analyzed in the PTC cohort of The Cancer Genome Atlas (TCGA, n=399) and subsequently validated in a local cohort (n=93). In vitro experiments were performed to investigate the regulatory role in relation to BRAFV600E and TERT expression. TCGA identified ETS1, ERG, FLI1, GABPA, EHF, ETV6 and SPDEF as differentially expressed genes between stages I+II and III+IV. In both cohorts, EHF was consistently associated with adverse clinical features, BRAFV600E and TERT promoter mutation/expression. Notably, in BRAFV600E mutated PTC, high EHF expression was associated with shorter disease-free survival. Cases harboring concurrent BRAFV600E, TERT promoter mutations and high EHF expression exhibited the shortest disease-free survival. In cells harboring concurrent BRAFV600E and TERT promoter mutation, over-expression of EHF significantly increased TERT expression while knockdown or pharmacological inhibition of BRAF significantly decreased both EHF and TERT expression. In addition, ChIP-qPCR analysis suggested a potential binding of EHF in TERT promoter mutant cells but not in TERT promoter wild-type cells. The ETS transcription factor EHF is associated with poor prognosis in PTC. This is potentially mediated by BRAF-induced upregulation of EHF which in turn increases TERT expression in TERT promoter mutated cells.

Papillary microcarcinoma of the thyroid gland: Evaluation of TERT and BRAFV-600E expression and their relationship with clinicopathological findings

Papillary microcarcinomas (PMCs) are papillary carcinomas ≤1 cm in size, with an increasing incidence. Although generally indolent, some cases exhibit aggressive behavior. Recently, active surveillance has been recommended to avoid surgical treatment. Identifying molecular changes that predict aggressiveness in PMCs has gained importance, but studies are limited. We aimed to demonstrate TERT expression and BRAF V600E positivity immunohistochemically in PMCs and correlate them with histomorphological features, subtypes, and clinicopathological findings. We included 95 PMC cases diagnosed between 2010 and 2019 at the Department of Pathology, Faculty of Medicine, XXX University. We investigated TERT expression using RT-PCR. We evaluated BRAF V600E mutation immunohistochemically. We evaluated the relationship between genetic, histomorphological, and clinicopathological findings. In patients with multifocality and those with a tumor size ≥0.5 cm, the frequency of lymph node metastasis was significantly higher. A positive correlation was shown between BRAF V600E positivity and lymph node metastasis, lymphovascular invasion, advanced disease stage, and classical subtype by univariate analyses. We detected TERT expression in 18 of 95 patients (7.8 %). No relationship could be detected between TERT expression alone or combined with BRAF positivity and clinicopathological features. Although TERT mutations are associated with aggressiveness in thyroid cancers, this association was absent in PMCs. The presence of TERT expression was demonstrated in some cases. However, TERT expression could not be associated with clinicopathological findings, which is consistent with the literature suggesting that TERT plays a role in advanced stages of carcinogenesis.

Endoplasmic Reticulum Stress Promotes Telomerase Reverse Transcriptase Expression Contributes to Development of Allergic Rhinitis.

The Th2 cell polarization is a crucial factor in the pathogenesis of allergic diseases. The underlying mechanism requires further investigation. Telomerase has an immune-regulating ability. The aim of this study is to elucidate the association between telomerase and Th2 cell polarization in patients with allergic rhinitis (AR). CD4+ T cells were isolated from blood samples collected from AR patients and healthy control subjects. RNA sequencing was employed to analyze RNA samples extracted from CD4+ T cells. An AR mouse model was established using the ovalbumin-alum protocol. High telomerase gene activity and high endoplasmic reticulum (ER) stress status were observed in CD4+ T-cells in patients with AR. Positive correlation between the telomerase reverse transcriptase (TERT) gene expression in CD4+ T cells and AR response in patients with AR. TERT facilitated the degradation of Foxp3 proteins in CD4+ T cells, resulting in the polarization of Th2 cells. Sensitization with the ovalbumin-alum protocol enhanced the Tert expression in CD4+ T cells by exacerbating ER stress. Conditional inhibition of the Tert or eukaryotic translation initiation factor 2-α (Eif2a) expression in CD4+ T cells effectively attenuated experimental AR in mice. Elevated amounts of telomerase in CD4+ T cells were found in CD4+ T cells of subjects with AR. Telomerase promoted Th2 cell polarization by inducing Foxp3 protein degradation and promotes GATA3 activation. Inhibition of TERT or eIF2a alleviated experimental AR.

Gene Expression Profiles of AHNAK2, DCSTAMP, FN1, and TERT Correlate With Mutational Status and Recurrence in Papillary Thyroid Carcinoma.

Papillary thyroid carcinoma (PTC), the most common malignancy of follicular cell derivation, is generally associated with good prognosis. Nevertheless, it is important to identify patients with aggressive PTCs and unfavorable outcome. Molecular markers such as BRAFV600E mutation and TERT promoter mutations have been proposed for risk stratification. While TERT promoter mutations have been frequently associated with aggressive PTCs, the association of BRAFV600E mutation with increased recurrence and mortality is less clear and has been controversially discussed. The aim of the present study was to analyze whether differentially expressed genes can predict BRAFV600E mutations as well as TERT promoter mutations in PTCs. RNA sequencing identified a large number of differentially expressed genes between BRAFV600E and BRAFwildtype PTCs. Of those, AHNAK2, DCSTAMP, and FN1 could be confirmed in a larger cohort (n = 91) to be significantly upregulated in BRAFV600E mutant PTCs using quantitative RT-PCR. Moreover, individual PTC expression values of DCSTAMP and FN1 were able to predict the BRAFV600E mutation status with high sensitivity and specificity. The expression of TERT was detected in all PTCs harboring TERT promoter mutations and in 19% of PTCs without TERT promoter mutations. Tumors with both TERT expression and TERT promoter mutations were particularly associated with aggressive clinicopathological features and a shorter recurrence-free survival. Altogether, it will be interesting to explore the biological function of AHNAK2, DCSTAMP, and FN1 in PTC in more detail. The analysis of their expression patterns could allow the characterization of PTC subtypes and thus enabling a more individualized surgical and medical treatment.

Establishment and characterization of a novel MDM2/MYCN-co-amplified neuroblastoma cell line, NBN-SHIM, established from a late recurrent stage MS tumor.

The biological heterogeneity of neuroblastoma underscores the need for an in vitro model of each molecularly defined subgroup to investigate tumorigenesis and develop targeted therapies. We have established a permanently growing cell line from a 12-year-old girl who developed a late recurrent stage MS, MDM2-amplified neuroblastoma arising in the liver and performed histological, molecular, cytogenetic, exome, and telomere analyses of the recurrent tumor and the cell line. On histology, the recurrent tumor was immunoreactive for TP53, CDKN1A, and MDM2. A molecular cytogenetic study of the recurrent tumor revealed the amplification of MDM2 but no amplification of MYCN. The established cell line, NBM-SHIM, showed amplification of both MDM2 and MYCN on double-minute chromosomes. A copy number evaluation based on exome data confirmed the finding for MYCN and MDM2 and further identified high ploidy on CDK4 and GLI2 loci in the recurrent tumor and the cell line. The telomere maintenance mechanism on the cell line is unusual in terms of the low expression of TERT despite MYCN amplification and alternative lengthening of telomeres suggested by positive value for C-circle assay and telomere contents quantitative assay. The cell line is unique because it was established from a MYCN-nonamplified, MDM2-amplified, late-relapsed stage MS neuroblastoma, and MYCN amplification was acquired during cell culture. Therefore, the cell line is a valuable tool for investigating neuroblastoma tumorigenesis and new molecular targeted therapies for disrupted ARF-TP53-MDM2 pathway and amplification of MDM2 and CDK4.

Regulation of Tert methylation alleviates food allergy via regulating the Tert-IL10 signal pathway.

The cause of food allergy (FA) is still a mystery. Telomerases are involved in the regulation of immune responses. This study aims to gain an understanding of the contribution of telomerase reverse transcriptase (TERT) to the pathogenesis of FA. A murine FA model was established with ovalbumin as the specific antigen. The role of TERT in regulating dendritic cell (DC) immune tolerogenic functions was evaluated in this murine model. We observed that the Tert promoter was at demethylation status and the Tert expression was elevated in DCs of FA mice. The Tert expression in DCs had a positive correlation with the FA response. TERT prevented the induction of Il10 expression in DCs. The immune tolerogenic functions of DCs were diminished by TERT. The immune tolerogenic functions of DC were restored by CpG by boosting the Tert promoter methylation. Administration of CpG promoted the therapeutic effects of allergen specific immunotherapy in FA mice. Low levels of Il10 expression and high levels of Tert expression were observed in intestinal DCs of FA mice. CpG exposure restored the expression of Il10 and increased the therapeutic benefits of allergen-specific immunotherapy.

Tert-expressing cells contribute to salivary gland homeostasis and tissue regeneration after radiation therapy.

Salivary gland homeostasis and regeneration after radiotherapy depend significantly on progenitor cells. However, the lineage of submandibular gland (SMG) progenitor cells remains less defined compared with other normal organs. Here, using a mouse strain expressing regulated CreERT2 recombinase from the endogenous Tert locus, we identify a distinct telomerase-expressing (TertHigh) cell population located in the ductal region of the adult SMG. These TertHigh cells contribute to ductal cell generation during SMG homeostasis and to both ductal and acinar cell renewal 1 year after radiotherapy. TertHigh cells maintain self-renewal capacity during in vitro culture, exhibit resistance to radiation damage, and demonstrate enhanced proliferative activity after radiation exposure. Similarly, primary human SMG cells with high Tert expression display enhanced cell survival after radiotherapy, and CRISPR-activated Tert in human SMG spheres increases proliferation after radiation. RNA sequencing reveals upregulation of "cell cycling" and "oxidative stress response" pathways in TertHigh cells following radiation. Mechanistically, Tert appears to modulate cell survival through ROS levels in SMG spheres following radiation damage. Our findings highlight the significance of TertHigh cells in salivary gland biology, providing insights into their response to radiotherapy and into their use as a potential target for enhancing salivary gland regeneration after radiotherapy.

P-501 Superovulation alters telomere length and telomerase expression in mouse oocytes, possibly by changing estradiol and progesterone levels

Abstract Study question How does the single and repeated superovulation affect the telomerase components expression and telomere length in mouse GV and MII oocytes? Summary answer Superovulation significantly altered the expression of the telomerase components Tert and Terc genes, TERT protein levels, and telomere length in the GV and MII oocytes. What is known already Assisted reproductive technologies (ARTs) are commonly used to treat infertility problems. One of the basic ART steps is controlled ovarian stimulation, also known as superovulation. Superovulation can lead to several adverse effects, such as increased oxidative stress, decreased oocyte and embryo quality, and mitochondrial dysfunction. These effects of superovulation largely overlap with those that causing telomere shortening. Study design, size, duration The effect of superovulation on the telomerase expression and telomere length of GV and MII oocytes is not fully addressed yet. In this study, we investigated the potential effects of single and repeated superovulation on telomerase expression and telomere length in mouse oocytes at germinal vesicle (GV) and metaphase II (MII) stages. In addition, we measured the estradiol and progesterone as well as oxidant and antioxidant capacity in serum samples of the oocytes-collected mice. Participants/materials, setting, methods Four groups of female Balb/C mice were formed: Control (C; n = 12), superovulated once (1S; n = 12), superovulated three times (3S; n = 12), and superovulated five times (5S; n = 12) at one-week intervals. The Tert and Terc gene expression, TERT protein levels, and telomere length in the mouse oocytes were assessed by RT-qPCR, immunofluorescence, and q-PCR, respectively. The hormone levels were analyzed by ELISA, and oxidant-antioxidant capacities were measured. All the ovarian follicles were counted in the H&E stained-sections. Main results and the role of chance We found that superovulation (1S, 3S, and 5S) significantly altered expression of the telomerase components Tert and Terc genes, TERT protein levels, and telomere length in the GV and MII oocytes (P<0.05). While estradiol levels in GV oocyte-collected and progesterone levels of GV and MII oocyte-collected mice were higher in the 1S, 3S, and 5S groups compared with the C group (P<0.01), the estradiol levels in MII oocyte-collected mice decreased progressively from C to 5S groups (P<0.01). However, no significant changes were found in the total oxidant status (TOS), antioxidant status (TAS), and oxidative stress index (OSI) between the groups. Also, primordial and atretic follicle numbers in the ovaries of 3S and 5S groups were significantly decreased compared to the control and 1S groups (P<0.05). Limitations, reasons for caution The limitation of this study is that we could not evaluate telomerase activity and oxidative stress levels in the mouse oocytes. Wider implications of the findings All these results suggest that altered telomerase expression and telomere length in GV and MII oocytes, possibly due to changed estradiol and progesterone levels, may be associated with adverse effects of superovulation on oocyte maturation and even preimplantation embryo development. Trial registration number not applicaple

Rosa roxburghii Fruit Extracts Upregulate Telomerase Activity and Ameliorate Cell Replicative Senescence.

Anti-aging functional foods benefit the elderly. Telomeres are chromosomal ends that maintain genome stability extended by telomerase catalytic subunit TERT. Due to the end-replication problem, telomeres shorten after each cell cycle without telomerase in most human cells, and eventually the cell enters the senescence stage. Natural products can attenuate the aging process by increasing telomerase activity, such as TA-65. However, TA-65 is expensive. Other Chinese natural products may achieve comparable effects. Here, we found that Rosa roxburghii fruit extracts effectively increase TERT expression and telomerase activity in cultured human mesenchymal stem cells. Both R. roxburghii fruit extracts obtained by freeze-drying and spray-drying increased the activity of telomerase. R. roxburghii fruit extracts were able to reduce reactive oxygen species levels, enhance superoxide dismutase activity, and reduce DNA damage caused by oxidative stress or radiation. R. roxburghii fruit extracts promoted cell proliferation, improved senescent cell morphology, delayed replicative cellular senescence, attenuated cell cycle suppressors, and alleviated the senescence-associated secretory phenotype. Transcriptome and metabolic profiling revealed that R. roxburghii fruit extracts promote DNA replication and telomere maintenance pathways and decrease triglyceride levels. Overall, we provide a theoretical basis for the application of R. roxburghii fruit as an anti-aging product.

An association between elevated telomerase reverse transcriptase expression and the immune tolerance disruption of dendritic cells

BackgroundTo elucidate the mechanism of dysfunction of tolerogenic dendritic cells (DCs) is of significance. Telomerase involves the regulation of the cell fate and activities. The objective of this study is to investigate the role of telomerase reverse transcriptase (TERT) in regulating the tolerogenic feature of DCs.MethodsThe telomerase was assessed in DCs, which were collected from patients with allergic rhinitis (AR), healthy control (HC) subjects, and mice. RNAs were extracted from DCs, and analyzed by RNA sequencing (RNAseq), real-time quantitative RT-PCR, and Western blotting.ResultsThe results showed that expression of TERT was higher in peripheral DCs of AR patients. The expression of IL10 in DCs was negatively correlated with the levels of TERT expression. Importantly, the levels of TERT mRNA in DCs were associated with the AR response in patients with AR. Endoplasmic reticulum (ER) stress promoted the expression of Tert in DCs. Sensitization with the ovalbumin-aluminum hydroxide protocol increased the expression of Tert in DCs by exacerbating ER stress. TERT interacting with c-Maf (the transcription factor of IL-10) inducing protein (CMIP) in DCs resulted in CMIP ubiquitination and degradation, and thus, suppressed the production of IL-10. Inhibition of Tert in DCs mitigated experimental AR.ConclusionsElevated amounts of TERT were detected in DCs of patients with AR. The tolerogenic feature of DCs was impacted by TERT. Inhibited TERT attenuated experimental AR.

Telomerase is essential for cardiac differentiation and sustained metabolism of human cardiomyocytes

Telomeres as the protective ends of linear chromosomes, are synthesized by the enzyme telomerase (TERT). Critically short telomeres essentially contribute to aging-related diseases and are associated with a broad spectrum of disorders known as telomeropathies. In cardiomyocytes, telomere length is strongly correlated with cardiomyopathies but it remains ambiguous whether short telomeres are the cause or the result of the disease. In this study, we employed an inducible CRISPRi human induced pluripotent stem cell (hiPSC) line to silence TERT expression enabling the generation of hiPSCs and hiPSC-derived cardiomyocytes with long and short telomeres. Reduced telomerase activity and shorter telomere lengths of hiPSCs induced global transcriptomic changes associated with cardiac developmental pathways. Consequently, the differentiation potential towards cardiomyocytes was strongly impaired and single cell RNA sequencing revealed a shift towards a more smooth muscle cell like identity in the cells with the shortest telomeres. Poor cardiomyocyte function and increased sensitivity to stress directly correlated with the extent of telomere shortening. Collectively our data demonstrates a TERT dependent cardiomyogenic differentiation defect, highlighting the CRISPRi TERT hiPSCs model as a powerful platform to study the mechanisms and consequences of short telomeres in the heart and also in the context of telomeropathies.

Microcephaly Gene Mcph1 Deficiency Induces p19ARF-Dependent Cell Cycle Arrest and Senescence.

MCPH1 has been identified as the causal gene for primary microcephaly type 1, a neurodevelopmental disorder characterized by reduced brain size and delayed growth. As a multifunction protein, MCPH1 has been reported to repress the expression of TERT and interact with transcriptional regulator E2F1. However, it remains unclear whether MCPH1 regulates brain development through its transcriptional regulation function. This study showed that the knockout of Mcph1 in mice leads to delayed growth as early as the embryo stage E11.5. Transcriptome analysis (RNA-seq) revealed that the deletion of Mcph1 resulted in changes in the expression levels of a limited number of genes. Although the expression of some of E2F1 targets, such as Satb2 and Cdkn1c, was affected, the differentially expressed genes (DEGs) were not significantly enriched as E2F1 target genes. Further investigations showed that primary and immortalized Mcph1 knockout mouse embryonic fibroblasts (MEFs) exhibited cell cycle arrest and cellular senescence phenotype. Interestingly, the upregulation of p19ARF was detected in Mcph1 knockout MEFs, and silencing p19Arf restored the cell cycle and growth arrest to wild-type levels. Our findings suggested it is unlikely that MCPH1 regulates neurodevelopment through E2F1-mediated transcriptional regulation, and p19ARF-dependent cell cycle arrest and cellular senescence may contribute to the developmental abnormalities observed in primary microcephaly.

Clinical mutations in the TERT and TERC genes coding for telomerase components induced oxidative stress, DNA damage at telomeres and cell apoptosis besides decreased telomerase activity.

Telomeres are nucleoprotein structures at the end of chromosomes that maintain their integrity. Mutations in genes coding for proteins involved in telomere protection and elongation produce diseases such as dyskeratosis congenita or idiopathic pulmonary fibrosis known as telomeropathies. These diseases are characterized by premature telomere shortening, increased DNA damage and oxidative stress. Genetic diagnosis of telomeropathy patients has identified mutations in the genes TERT and TERC coding for telomerase components but the functional consequences of many of these mutations still have to be experimentally demonstrated. The activity of twelve TERT and five TERC mutants, five of them identified in Spanish patients, has been analyzed. TERT and TERC mutants were expressed in VA-13 human cells that express low telomerase levels and the activity induced was analyzed. The production of reactive oxygen species, DNA oxidation and TRF2 association at telomeres, DNA damage response and cell apoptosis were determined. Most mutations presented decreased telomerase activity, as compared to wild-type TERT and TERC. In addition, the expression of several TERT and TERC mutants induced oxidative stress, DNA oxidation, DNA damage, decreased recruitment of the shelterin component TRF2 to telomeres and increased apoptosis. These observations might indicate that the increase in DNA damage and oxidative stress observed in cells from telomeropathy patients is dependent on their TERT or TERC mutations. Therefore, analysis of the effect of TERT and TERC mutations of unknown function on DNA damage and oxidative stress could be of great utility to determine the possible pathogenicity of these variants.

TERT RNAscope analysis of sub-centimetric papillary thyroid carcinomas and synchronous lymph node metastases.

Sub-centrimetric papillary thyroid carcinomas usually have a good prognosis with a cancer specific survival of > 99%, however in up to 65% of patients, lymph node metastases can be observed. Molecular alterations in BRAF, TERT and TP53 are associated with worse clinicopathological outcome in patients with papillary thyroid carcinoma. Twenty-two cases of papillary thyroid carcinomas measuring ≤ 1cm with synchronous lymph node metastases were examined regarding morphological patterns and immunohistochemical status of p53, Ki-67, and BRAF V600E status. TERT RNA expression in lymph node metastases were evaluated by RNAScope®. Morphological patterns were heterogeneous in both primary tumors and lymph node metastases. Proliferation indices measured by Ki-67 were low. Both primary and lymph node metastases were wild type for p53 by immunohistochemical analysis. No lymph node metastasis showed TERT expression by RNAScope®. Our data indicate that TERT expression is not involved in the development early lymph node metastasis in patients with sub-centimetric PTC.

TERT Promoter Mutations Increase Tumor Aggressiveness by Altering TERT mRNA Splicing in Papillary Thyroid Carcinoma.

Telomerase reverse transcriptase promoter (TERT-p) mutations, which upregulate TERT expression, are strongly associated with tumor aggressiveness and worse prognosis in papillary thyroid carcinomas (PTCs). TERT expression is also observed in a proportion of PTCs without TERT-p mutations, but such tumors show less aggressiveness and better prognosis than TERT-p mutation-positive tumors. TERT has multiple splicing variants whose relationships with the TERT-p status and clinicopathological characteristics remain poorly understood. We examined the relationship between the TERT-p mutational status, the TERT splicing pattern, and clinicopathological features. We investigated the expression of 2 major variants, α deletion (dA) and β deletion (dB), in a series of 207 PTCs operated on between November 2001 and March 2020 in Nagasaki University Hospital and Kuma Hospital. The TERT-p mutations were found in 33 cases, and among 174 mutation-negative cases, 24 showed TERT expression. All cases were classified into 3 groups: the TERT-p mutation-negative/expression-negative group (mut-/exp-), the TERT-p mutation-negative/expression-positive group (mut-/exp+), and the TERT-p mutation-positive group (mut+/exp+). The +A+B/dB ratio in mut+/exp+ was significantly higher than that in mut-/exp+ PTCs. Analysis with clinicopathological data revealed that +A+B expression was associated with higher PTC aggressiveness, whereas dB expression counteracted this effect. Functional in vitro study demonstrated that dB strongly inhibited cell growth, migration, and clonogenicity, suggesting its tumor-suppressive role. These results provide evidence that the TERT-p mutations alter the expression of different TERT splice variants, which, in turn, associates with different tumor aggressiveness.

Abstract 1822: Artemisia annua Lpolyphenols augment b-lapachone effects on oxaliplatin-resistant HCT 116 colorectal cancer cells by downregulating TERT, CD44, EGFR and oxaliplatin resistance-related proteins of OXP-R-Hct 116 cells

Abstract We previously demonstrated that β-lapachone (β-Lap) exerts stronger anticancer activity on oxaliplatin-resistant HCT116 colorectal cancer cells (Oxp-R-HCT 116 cells) than parental HCT116 cells (p-HCT 116 cells) by downregulating the oxaliplatin resistance-related upregulated proteins (Oxp-RR-Proteins) proteins in Oxp-R-HCT 116 cells, such as SOD1, MAPK, and nucelophosmin. We also demonstrated polyphenols extracted from Korean Artemisia annua L. (pKAL) exerts anticancer activity on radio-resistant MDA-MB-231 human breast cancer cells by suppressing stem cell phenotype, β-catenin, and MMP-9. In this study, we found that pKAL significantly enhanced the anticancer activity of β-lapachone (β-Lap) on oxaliplatin-resistant (Oxp-R) HCT116 colorectal cancer cells. The aim of this study is to elucidate how pKAL enhance the anticancer effects of β-Lap on Oxp-R-HCT 116 cells. CCK-8 assay, phase-contrast microscopy analysis, and morphological analysis with hematoxylin stain revealed that the anticancer effect of β-Lap is more enhanced by pKAL on Oxp-R-HCT 116 cells over 60 hr. This phenomenon was associated with suppression of oxaliplatin resistance-related upregulated proteins (Oxp-RR-Proteins) (p53, ERK, and β-catenin), and downregulation of cell survival- and stemness-related proteins (TERT, CD44 and EGFR) that were not up-regulated in Oxp-R-HCT 116 cells. Protein-protein interaction network analysis of the 21 proteins that showed large difference in expression between before and after the combined treatment of pKAL and β-Lap in HCT116-OxPt-R cells revealed that the enhanced anticancer effect of β-Lap by pKAL was related to the inhibition of negative regulation of apoptotic process and the induction of DNA damage through TERT, CD44, and EGFR-mediated multiple signaling networks. The detailed western blot analysis for anti-cancer effects of pKAL revealed that pKAL alone also suppressed the expression of TERT, CD44 and EGFR in p-HCT 116 cells as well as Oxp-R-HCT 116 cells while β-Lap alone did not influence the expression of them. In addition, for some of the Oxp-RR-Proteins of Oxp-R-HCT 116 cells (p53, ERK, and β-catenin) were suppressed by pKAL alone, but not others. However, some other Oxp-RR-Proteins of Oxp-R-HCT 116 cells that were not suppressed by pKAL alone were significantly suppressed by the combination treatment of pKAL and β-Lap. These findings suggest that pKAL enhanced the anti-cancer effects β-Lap by suppressing TERT, CD44, and EGFR-mediated multiple signaling networks as well as some of the Oxp-RR-Proteins of Oxp-R-HCT 116 cells. In conclusion, this study suggests that pKAL enhance the anticancer effects of β-Lap on OXP-R-Hct 116 cells by downregulating CD44, EGFR and some of the Oxp-RR-Proteins of Oxp-R-HCT 116 cells. Citation Format: Won Sup Lee, Eun Joo Jung, Hye Jung Kim, Sung Chul Shin, Gon Sup Kim, Jin-Myung Jung, Soon Chan Hong, Choong Won Kim. Artemisia annua Lpolyphenols augment b-lapachone effects on oxaliplatin-resistant HCT 116 colorectal cancer cells by downregulating TERT, CD44, EGFR and oxaliplatin resistance-related proteins of OXP-R-Hct 116 cells [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 1822.

Abstract 5442: Terthighcells: key players in salivary gland homeostasis and regeneration after radiation therapy in adult mice

Abstract Salivary gland homeostasis and regeneration post-radiotherapy depend significantly on stem/progenitor cells. However, the lineage of SMG progenitor cells is not as well defined as in other normal organs, and better understanding of this population would be important for their future clinical application for tissue regeneration. Using a mouse strain expressing regulated CreERT2 recombinase from the endogenous Tert locus, we identify a distinct Terthigh cell population that are located in the ductal region throughout the submandibular gland (SMG), express ASCL3 (another progenitor cell marker) and can give rise to ductal cells during homeostasis. In contrast, Terthigh cells are found to repopulate both ductal and acinar cells at one year of tracing after radiotherapy. Terthigh cells from adult SMG retain self-renewal capacity when subjected in vitro culture, are resistant to radiation cell kill, and display enhanced proliferative activity post-radiation. Similarly, primary human SMG cells with high Tert expression display enhanced cell survival after radiotherapy. RNA sequencing reveals upregulation of the cell cycling and oxidative stress response pathways these cells after radiation. Mechanistically, Tert appears to modulate cell survival and ROS level in SMG spheres following radiation damage. Collectively, these data suggest that Terthigh cells constitute a novel subset of SMG progenitor cells located throughout the ductal region of the gland that can help to repopulate both ductal and acinar cells after RT damage. Citation Format: Li Guan, Vignesh Viswanathan, Sivakamasundari V, Hongbin Cao, Yuyan Jiang, Junfei Zhao, Deana R. Colburg, Patrick T. Neuhoefer, Yu Xu, Eyiwunmi E. Laseinde, Steven Artandi, Quynh-Thu Le. Terthighcells: key players in salivary gland homeostasis and regeneration after radiation therapy in adult mice [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 5442.

STING is significantly increased in high-grade glioma with high risk of recurrence

ABSTRACT In this study, we aimed to comprehensively characterize the potential relationships among the frequently mutated genes, well-known homologous recombination repair (HRR) proteins, and immune proteins in glioma from a clinical perspective. A total of 126 surgical tissues from patients initially diagnosed with glioma were included. The genetic alterations were tested using the targeted next-generation sequencing technique. The expression of HRR proteins, immune proteins, and genetic alteration-related proteins were detected using immunostaining. Integrated analysis showed that ATRX is positively correlated with STING in high-grade glioma (HGG) with wild-type ATRX and IDH1. Then, a relapse predictive risk-scoring model was established using the least absolute shrinkage and selection operator regression algorithms. The scores based on the expression of ATRX and STING significantly predict the recurrence for glioma patients, which further predict the survival for specific subgroups, characterized with high expression of RAD51 and wild-type TERT. Moreover, STING is significantly higher in patients with high relapse risk. Interestingly, STING inhibitors and agonists both suppress the growth of HGG cells, regardless of their STING levels and STING pathway activity, whereas RAD51 inhibitor B02 is found to exclusively sensitize HGG cells with high expression of STING to temozolomide in vitro and in vivo. Overall, findings in the study not only reveal that ATRX is closely correlated with STING to drive the relapse of HGG, but also provide a STING-guided combined strategy to treat patients with aggressive gliomas. Translation of these findings will ultimately improve the outcomes for ATRX and IDH1 genomically stratified subgroups in HGG.

MTert induction in p21-positive cells counteracts capillary rarefaction and pulmonary emphysema

Lung diseases develop when telomeres shorten beyond a critical point. We constructed a mouse model in which the catalytic subunit of telomerase (mTert), or its catalytically inactive form (mTertCI), is expressed from the p21Cdkn1a locus. Expression of either TERT or TERTCI reduces global p21 levels in the lungs of aged mice, highlighting TERT non-canonical function. However, only TERT reduces accumulation of very short telomeres, oxidative damage, endothelial cell (ECs) senescence and senile emphysema in aged mice. Single-cell analysis of the lung reveals that p21 (and hence TERT) is expressed mainly in the capillary ECs. We report that a fraction of capillary ECs marked by CD34 and endowed with proliferative capacity declines drastically with age, and this is counteracted by TERT but not TERTCI. Consistently, only TERT counteracts decline of capillary density. Natural aging effects are confirmed using the experimental model of emphysema induced by VEGFR2 inhibition and chronic hypoxia. We conclude that catalytically active TERT prevents exhaustion of the putative CD34 + EC progenitors with age, thus protecting against capillary vessel loss and pulmonary emphysema.