Your search keyword '"Klisch, Tiemo J."' showing total 3 results

1. Role of NF2 Mutation in the Development of Eleven Different Cancers.

Author

Nouri, Shervin Hosseingholi, Nitturi, Vijay, Ledbetter, Elizabeth, English, Collin W., Lau, Sean, Klisch, Tiemo J., and Patel, Akash J.

Subjects

TUMOR risk factors, MESOTHELIOMA risk factors, BREAST tumor risk factors, SKIN tumors, GLIOMAS, THYROID gland tumors, MELANOMA, PROSTATE tumors, TUMOR suppressor genes, CENTRAL nervous system tumors, MENINGIOMA, SCHWANNOMAS, GENETIC mutation, HIPPO signaling pathway, DISEASE progression, HEPATOCELLULAR carcinoma, DISEASE risk factors

Abstract

Simple Summary: In this study, we sought to understand the role of NF2 gene mutation in the carcinogenesis of sporadic cancers. NF2 gene mutations are noted in several central nervous system tumors, solid-organ tumors, and skin cancers. We conducted a literature review on eleven different cancers with NF2 gene mutation involvement, summarizing the extent of association and specific biological pathways thought to be affected by NF2 mutations. We synthesized studies across several oncologic fields to consolidate what we know about NF2 gene mutations in cancer development. The Hippo signaling pathway is a biological pathway that is involved in eight of the eleven NF2-mutated cancers studied in this review. Although NF2 mutation has a known interaction with the Hippo signaling pathway, the specific details of this interface remain a topic for further studies. Background/Objectives: With the rise in prevalence of diagnostic genetic techniques like RNA sequencing and whole exome sequencing (WES), as well as biological treatment regiments for cancer therapy, several genes have been implicated in carcinogenesis. This review aims to update our understanding of the Neurofibromatosis 2 (NF2) gene and its role in the pathogenesis of various cancers. Methods: A comprehensive search of five online databases yielded 43 studies that highlighted the effect of sporadic NF2 mutations on several cancers, including sporadic meningioma, ependymoma, schwannoma, mesothelioma, breast cancer, hepatocellular carcinoma, prostate cancer, glioblastoma, thyroid cancer, and melanoma. Of note were key biological pathways implicated in cancer formation resulting from sporadic NF2 mutations. Results: NF2 gene mutations are implicated in over 11 different cancers, including several CNS tumors, soli-organ tumors, and skin cancer. NF2 acts as a driver mutation in some cancers, as a non-driver mutation in some cancers, and has simple associated mutations with other cancers. In terms of biological pathway involvement, 8 of the 11 cancers with NF2 mutations show evidence of Hippo signaling cascade involvement. Conclusions: Several cancers characterized by mutations in the NF2 gene have associations with the Hippo signaling pathway. However, future studies remain to be done to further elucidate the role of the Hippo signaling pathway in the carcinogenesis of human NF2-mutant tumors. The findings of this review provide insights into the role of NF2 mutations in cancers, Hippo signaling in NF2-mutant cancers, and current gaps in our knowledge regarding the two. [ABSTRACT FROM AUTHOR]

Published

2025

2. Patient-Derived Orthotopic Xenograft (PDOX) Mouse Models of Primary and Recurrent Meningioma.

Author

Zhang, Huiyuan, Qi, Lin, Du, Yuchen, Huang, L. Frank, Braun, Frank K., Kogiso, Mari, Zhao, Yanling, Li, Can, Lindsay, Holly, Zhao, Sibo, Injac, Sarah G., Baxter, Patricia A., Su, Jack M., Stephan, Clifford, Keller, Charles, Heck, Kent A., Harmanci, Akdes, Harmanci, Arif O., Yang, Jianhua, and Klisch, Tiemo J.

Subjects

BRAIN physiology, ANIMAL experimentation, CANCER relapse, CELL lines, GENE expression, MENINGIOMA, MICE, RNA, XENOGRAFTS, DISEASE relapse, HISTONE deacetylase

Abstract

Background. Meningiomas constitute one-third of all primary brain tumors. Although typically benign, about 20% of these tumors recur despite surgery and radiation, and may ultimately prove fatal. There are currently no effective chemotherapies for meningioma. We, therefore, set out to develop patient-derived orthotopic xenograft (PDOX) mouse models of human meningioma using tumor. Method. Of nine patients, four had World Health Organization (WHO) grade I tumors, five had WHO grade II tumors, and in this second group two patients also had recurrent (WHO grade III) meningioma. We also classified the tumors according to our recently developed molecular classification system (Types A, B, and C, with C being the most aggressive). We transplanted all 11 surgical samples into the skull base of immunodeficient (SCID) mice. Only the primary and recurrent tumor cells from one patient—both molecular Type C, despite being WHO grades II and III, respectively—led to the formation of meningioma in the resulting mouse models. We characterized the xenografts by histopathology and RNA-seq and compared them with the original tumors. We performed an in vitro drug screen using 60 anti-cancer drugs followed by in vivo validation. Results. The PDOX models established from the primary and recurrent tumors from patient K29 (K29P-PDOX and K29R-PDOX, respectively) replicated the histopathology and key gene expression profiles of the original samples. Although these xenografts could not be subtransplanted, the cryopreserved primary tumor cells were able to reliably generate PDOX tumors. Drug screening in K29P and K29R tumor cell lines revealed eight compounds that were active on both tumors, including three histone deacetylase (HDAC) inhibitors. We tested the HDAC inhibitor Panobinostat in K29R-PDOX mice, and it significantly prolonged mouse survival (p < 0.05) by inducing histone H3 acetylation and apoptosis. Conclusion. Meningiomas are not very amenable to PDOX modeling, for reasons that remain unclear. Yet at least some of the most malignant tumors can be modeled, and cryopreserved primary tumor cells can create large panels of tumors that can be used for preclinical drug testing. [ABSTRACT FROM AUTHOR]

Published

2020

3. The Role of Merlin/NF2 Loss in Meningioma Biology.

Author

Lee, Sungho, Karas, Patrick J., Hadley, Caroline C., Bayley V, James C., Khan, A. Basit, Jalali, Ali, Sweeney, Alex D., Klisch, Tiemo J., and Patel, Akash J.

Subjects

TUMOR suppressor genes, CELLULAR signal transduction, MEMBRANE proteins, MENINGIOMA, GENETIC mutation, SEQUENCE analysis, SCHWANNOMAS

Abstract

Mutations in the neurofibromin 2 (NF2) gene were among the first genetic alterations implicated in meningioma tumorigenesis, based on analysis of neurofibromatosis type 2 (NF2) patients who not only develop vestibular schwannomas but later have a high incidence of meningiomas. The NF2 gene product, merlin, is a tumor suppressor that is thought to link the actin cytoskeleton with plasma membrane proteins and mediate contact-dependent inhibition of proliferation. However, the early recognition of the crucial role of NF2 mutations in the pathogenesis of the majority of meningiomas has not yet translated into useful clinical insights, due to the complexity of merlin's many interacting partners and signaling pathways. Next-generation sequencing studies and increasingly sophisticated NF2-deletion-based in vitro and in vivo models have helped elucidate the consequences of merlin loss in meningioma pathogenesis. In this review, we seek to summarize recent findings and provide future directions toward potential therapeutics for this tumor. [ABSTRACT FROM AUTHOR]

Published

2019