Your search keyword '"MT: Novel therapeutic targets and biomarker development Special Issue"' showing total 10 results

1. SAP30, a novel autophagy regulatory gene in neuroblastoma

Author

Pathania, Anup S., Murugan, Anjana, Zahid, Areem, Chava, Haritha, Coulter, Don W., Calin, George A., and Challagundla, Kishore B.

Published

2025

2. Clinical value of circulating splicing factors in prostate cancer: SRRM1 as a novel predictive biomarker and therapeutic target

Author

Antonio J. Montero-Hidalgo, Enrique Gómez-Gómez, Manuel Galán-Cañete, Francisco Porcel-Pastrana, Jesús M. Pérez-Gómez, María Ortega-Bellido, Julia Carrasco-Valiente, Laura Chamorro-Castillo, Juan P. Campos-Hernández, Oriol A. Rangel-Zuñiga, Teresa González-Serrano, Rafael Sánchez-Sánchez, André Sarmento-Cabral, Manuel D. Gahete, Juan M. Jiménez-Vacas, and Raúl M. Luque

Subjects

MT: Novel therapeutic targets and biomarker development Special Issue, SRRM1, SNRNP200, SRSF3, prostate cancer, biomarker, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Prostate cancer (PCa) is the second most common cancer among men worldwide. The main screening tool remains the prostate-specific antigen (PSA), which shows significant limitations, including poor sensitivity/specificity. Therefore, establishing accurate non-invasive diagnostic biomarkers remains an unmet clinical need in PCa. In this context, the splicing process dysregulation represents a PCa hallmark. Here, plasma SRRM1, SNRNP200, and SRSF3 levels, previously identified to play a pathophysiological role in PCa, were determined in control individuals (n = 40) and PCa patients (n = 166). We found that plasma SRRM1 and SNRNP200 levels were elevated in PCa patients and discriminated between control individuals and PCa patients. High plasma SRRM1 levels were associated with a shorter castration-resistant PCa-free survival and correlated with androgen-receptor (AR)/AR-splicing variant 7 (AR-V7) expression levels and activity in PCa tissues. Therefore, the functional and molecular effects of in vivo SRRM1 silencing were then tested in 22Rv1-derived xenograft tumors. In vivo SRRM1 silencing reduced aggressiveness features and altered AR/AR-V7 activity. Our data reveal that SRRM1 holds potential as a non-invasive diagnostic and prognostic biomarker and novel therapeutic target in PCa, offering a clinically relevant opportunity worth exploring in humans.

Published

2024

3. Stratifying hepatocellular carcinoma based on immunophenotypes for immunotherapy response and prognosis

Author

Yunpeng Liu, Hongchen Ji, Li-Hong Wu, Xiang-Xu Wang, Yue Yang, Qiong Zhang, and Hong-Mei Zhang

Subjects

MT: Novel therapeutic targets and biomarker development Special Issue, biomarkers, hepatocellular carcinoma, immunotherapy, prognosis, tumor microenvironment, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Immunotherapy has transformed the management of hepatocellular carcinoma (HCC), but effectiveness varies among patients. This study aimed to identify biomarkers and HCC subtypes responsive to immunotherapy. Patients were classified into Immunity-High (Immunity-H) and Immunity-Low (Immunity-L) subtypes using ssGSEA scores. Prognostic genes were identified through Cox regression, and immune cell infiltration was quantified with TIMER 2.0. Brother of CDO (BOC) expression, analyzed via immunohistochemistry, correlated with immunotherapy responses. Flow cytometry assessed immune cell infiltration relative to BOC levels, while CCK-8 and transwell assays evaluated BOC overexpression’s effects on cell proliferation and invasiveness. Clinically, immunity-H patients had better survival outcomes. Three hub genes—BOC, V-Set and Transmembrane Domain Containing 1 (VSTM1), and PRDM12—were identified as significantly associated with prognosis. Among these, BOC and VSTM1 demonstrated positive correlations with immune cell infiltration. Elevated expression of BOC was found to be predictive of favorable responses to immunotherapy and was associated with enhanced infiltration of T cells, dendritic cells, and B cells in the tumor microenvironment. Conversely, BOC overexpression in liver cancer cell lines led to decreased cell proliferation and invasiveness. This study underscores the prognostic significance of HCC subtypes defined by immunogenomic profiles and identifies BOC as a potential biomarker for immunotherapy selection and outcome prediction.

Published

2024

4. miRNA-199b-5p suppresses of oral squamous cell carcinoma by targeting apical-basolateral polarity via Scribble/Lgl

Author

Shihyun Kim, Suyeon Park, Yong-Jae Kim, Jeongeun Hyun, and Jongho Choi

Subjects

MT: Novel therapeutic targets and biomarker development Special Issue, oral squamous cell carcinoma, Scribble, hypoxia, proliferation, metastasis, Therapeutics. Pharmacology, RM1-950

Abstract

In epithelial cells, Scribble forms cell-cell junctions and contributes to cell morphology and homeostasis by regulating apical-basolateral polarity in mammals and functions as a tumor suppressor in many carcinomas. The initial diagnosis of oral squamous cell carcinoma is important, and its prognosis is poor when accompanied by metastasis. However, research on the mechanisms of oral squamous cell carcinoma metastasis is insufficient. Herein, we showed that Scribble regulates the apical-basolateral polarity of oral squamous cell carcinoma by regulating lethal giant larvae 1, Scribble module and E-cadherin, the adhesion junction. The expression of lethal giant larvae 1 and E-cadherin decreased when the expression of Scribble was knocked down and their localization was completely disrupted in both the oral squamous cell carcinoma cell line and in vivo model. In particular, the Scribble was involved in oral squamous cell carcinoma metastasis via hsa-miR-199b-5p, which is a microenvironmental factor of hypoxia. The disruption of Scribble localization under hypoxic conditions, but its localization was maintained in miR-199b-5p oral squamous cell carcinoma cell lines and in vivo. These results suggest that Scribble functions as a tumor suppressor marker mediated by miR-199b-5p in oral squamous cell carcinoma.

Published

2024

5. Targeting the membrane-proximal C2-set domain of CD33 for improved CAR T cell therapy

Author

Salvatore Fiorenza, Sheryl Y.T. Lim, George S. Laszlo, Erik L. Kimble, Tinh-Doan Phi, Margaret C. Lunn-Halbert, Delaney R. Kirchmeier, Jenny Huo, Hans-Peter Kiem, Cameron J. Turtle, and Roland B. Walter

Subjects

MT: Novel therapeutic targets and biomarker development Special Issue, acute myeloid leukemia, AML, adoptive cell therapy, CD33, chimeric antigen receptor, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Current CD33-targeted immunotherapies typically recognize the membrane-distal V-set domain of CD33. Here, we show that decreasing the distance between T cell and leukemia cell membrane increases the efficacy of CD33 chimeric antigen receptor (CAR) T cells. We therefore generated and optimized second-generation CAR constructs containing single-chain variable fragments from antibodies raised against the membrane-proximal C2-set domain, which bind CD33 regardless of whether the V-set domain is present (CD33PAN antibodies). CD33PAN CAR T cells resulted in efficient tumor clearance and improved survival of immunodeficient mice bearing human AML cell xenografts and, in an AML model with limited CD33 expression, forced escape of CD33neg leukemia. Compared to CD33V-set CAR T cells, CD33PAN CAR T cells showed greater in vitro and in vivo efficacy against several human AML cell lines with differing levels of CD33 without increased expression of exhaustion markers. CD33PAN moieties were detected at a higher frequency on human leukemic stem cells, and CD33PAN CAR T cells had greater in vitro efficacy against primary human AML cells. Together, our studies demonstrate improved efficacy with CAR T cells binding CD33 close to the cell membrane, providing the rationale to investigate CD33PAN CAR T cells further toward possible clinical application.

Published

2024

6. Promising immunotherapy targets: TIM3, LAG3, and TIGIT joined the party

Author

Chenyu Lu and Yuanyan Tan

Subjects

MT: Novel therapeutic targets and biomarker development Special Issue, immune check inhibitors, ICIs, TIM3, LAG3, TIGIT, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Immune checkpoint inhibitors (ICIs) have shown great promise as immunotherapy for restoring T cell function and reactivating anti-tumor immunity. The US Food and Drug Administration (FDA) approved the first immune checkpoint inhibitor, ipilimumab, in 2011 for advanced melanoma patients, leading to significant improvements in survival rates. Subsequently, other immune checkpoint-targeting antibodies were tested. Currently, seven ICIs, namely ipilimumab (anti-cytotoxic T lymphocyte-associated protein 4 [CTLA4]), pembrolizumab, nivolumab (anti-programmed cell death protein 1 [PD-1]), atezolizumab, avelumab, durvalumab, and cemiplimab (anti-PD-L1), have been approved for various cancer types. However, the efficacy of antibodies targeting CTLA4 or PD-1/programmed death-ligand 1 (PD-L1) remains suboptimal. Consequently, ongoing studies are evaluating the next generation of ICIs, such as lymphocyte activation gene-3 (LAG3), T cell immunoglobulin and mucin-domain containing 3 (TIM3), and T cell immunoglobulin and ITIM domain (TIGIT). Our review provides a summary of clinical trials evaluating these novel immune checkpoints in cancer treatment.

Published

2024

7. MicroRNA-centered theranostics for pulmoprotection in critical COVID-19

Author

Manel Perez-Pons, Marta Molinero, Iván D. Benítez, María C. García-Hidalgo, Shambhabi Chatterjee, Christian Bär, Jessica González, Antoni Torres, Ferran Barbé, and David de Gonzalo-Calvo

Subjects

MT: Novel therapeutic targets and biomarker development Special Issue, post-COVID syndrome, long COVID, microRNA, pulmoprotection, theranostics, Therapeutics. Pharmacology, RM1-950

Abstract

Elucidating the pathobiological mechanisms underlying post-acute pulmonary sequelae following SARS-CoV-2 infection is essential for early interventions and patient stratification. Here, we investigated the potential of microRNAs (miRNAs) as theranostic agents for pulmoprotection in critical illness survivors. Multicenter study including 172 ICU survivors. Diffusion impairment was defined as a lung-diffusing capacity for carbon monoxide (DLCO)

Published

2024

8. Exosomal noncoding RNA: A potential therapy for retinal vascular diseases

Author

Jong-Ik Heo and Juhee Ryu

Subjects

MT: Novel therapeutic targets and biomarker development Special Issue, exosomal RNA, noncoding RNA, microRNA, long noncoding RNA, circular RNA, Therapeutics. Pharmacology, RM1-950

Abstract

Exosomes are extracellular vesicles that can contain DNA, RNA, proteins, and metabolites. They are secreted by cells and play a regulatory role in various biological responses by mediating cell-to-cell communication. Moreover, exosomes are of interest in developing therapies for retinal vascular disorders because they can deliver various substances to cellular targets. According to recent research, exosomes can be used as a strategy for managing retinal vascular diseases, and they are being investigated for therapeutic purposes in eye conditions, including glaucoma, dry eye syndrome, retinal ischemia, diabetic retinopathy, and age-related macular degeneration. However, the role of exosomal noncoding RNA in retinal vascular diseases is not fully understood. Here, we reviewed the latest research on the biological role of exosomal noncoding RNA in treating retinal vascular diseases. Research has shown that noncoding RNAs, including microRNAs, circular RNAs, and long noncoding RNAs play a significant role in the regulation of retinal vascular diseases. Furthermore, through exosome engineering, the expression of relevant noncoding RNAs in exosomes can be controlled to regulate retinal vascular diseases. Therefore, this review suggests that exosomal noncoding RNA could be considered as a biomarker for diagnosis and as a therapeutic target for treating retinal vascular disease.

Published

2024

9. Engineering cGAS-agonistic oligonucleotides as therapeutics for cancer immunotherapy

Author

Shurong Zhou, Ting Su, Furong Cheng, Janet Cole, Xiang Liu, Bei Zhang, Shaheer Alam, Jinze Liu, and Guizhi Zhu

Subjects

MT: Novel therapeutic targets and biomarker development Special Issue, cGAS, oligonucleotide therapeutics, immunostimulants, cancer vaccines, combination immunotherapy, Therapeutics. Pharmacology, RM1-950

Abstract

Activating cyclic GMP-AMP synthase-stimulator of interferon genes (cGAS-STING) holds great potential for cancer immunotherapy by eliciting type-I interferon (IFN-I) responses. Yet, current approaches to cGAS-STING activation rely on STING agonists, which suffer from difficult formulation, poor pharmacokinetics, and marginal clinical therapeutic efficacy. Here, we report nature-inspired oligonucleotide, Svg3, as a cGAS agonist for cGAS-STING activation in tumor combination immunotherapy. The hairpin-shaped Svg3 strongly binds to cGAS and enhances phase separation to form Svg3-cGAS liquid-like droplets. This results in cGAS-specific immunoactivation and robust IFN-I responses. Remarkably, Svg3 outperforms several state-of-the-art STING agonists in murine and human cells/tissues. Nanoparticle-delivered Svg3 reduces tumor immunosuppression and potentiates immune checkpoint blockade therapeutic efficacy of multiple syngeneic tumor models in wild-type mice, but in neither cGas−/− nor Sting−/− mice. Overall, these results demonstrate the great potential of Svg3 as a cGAS agonistic oligonucleotide for cancer combination immunotherapy.

Published

2024

10. Insights into the regulatory role of epigenetics in moyamoya disease: Current advances and future prospectives.

Author

Xu S, Chen T, Yu J, Wan L, Zhang J, Chen J, Wei W, and Li X

Abstract

Moyamoya disease (MMD) is a progressive steno-occlusive cerebrovascular disorder that predominantly affecting East Asian populations. The intricate interplay of distinct and overlapping mechanisms, including genetic associations such as the RNF213-p.R4810K variant, contributes to the steno-occlusive lesions and moyamoya vessels. However, genetic mutations alone do not fully elucidate the occurrence of MMD, suggesting a potential role for epigenetic factors. Accruing evidence has unveiled the regulatory role of epigenetic markers, including DNA methylation, histone modifications, and non-coding RNAs (ncRNAs), in regulating pivotal cellular and molecular processes implicated in the pathogenesis of MMD by modulating endothelial cells and smooth muscle cells. The profile of these epigenetic markers in cerebral vasculatures and circulation has been determined to identify potential diagnostic biomarkers and therapeutic targets. Furthermore, in vitro studies have demonstrated the multifaceted effects of modulating specific epigenetic markers on MMD pathogenesis. These findings hold great potential for the discovery of novel therapeutic targets, translational studies, and clinical applications. In this review, we comprehensively summarize the current understanding of epigenetic mechanisms, including DNA methylation, histone modifications, and ncRNAs, in the context of MMD. Furthermore, we discuss the potential challenges and opportunities that lie ahead in this rapidly evolving field., Competing Interests: The authors declare no conflict of interests., (© 2024 The Authors.)

Published

2024