Aptamers in Non-Small Cell Lung Cancer Treatment

Wieleba, Irena; Wojas‐Krawczyk, Kamila; Krawczyk, Paweł

doi:10.3390/molecules25143138

Cited by 10 publications

(13 citation statements)

References 85 publications

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“…The advancement of aptamer-based therapeutics in oncology [46] , [47] , combined with the recent evidences of riboregulation of metabolic enzymes involved in cancer [3] , [10] , [11] , [45] , [18] , open the possibily to employ RNA aptamers to regulate metabolic enzymes and lower their oncogenic potential. The selectivity of such RNA modulators can be tailored to hit specific cell types, taking advantage of the ongoing knowledge on cell specific targeting of RNA molecules employing different mechanisms of action [48] , [49] . In this view, our results pave the way for the design of new aptamers-based treatments employing RNA molecules as allosteric modulators of the activity of selected metabolic enzymes, such approach will be helpful to treat diseases where the dysregulation of serine and glycine plays an important role, including cancer.…”

Section: Discussionmentioning

confidence: 99%

Modelling of SHMT1 riboregulation predicts dynamic changes of serine and glycine levels across cellular compartments

Monti

Guiducci

Paone

et al. 2021

Computational and Structural Biotechnology Journal

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Section: Discussionmentioning

confidence: 99%

Modelling of SHMT1 riboregulation predicts dynamic changes of serine and glycine levels across cellular compartments

Monti

Guiducci

Paone

et al. 2021

Computational and Structural Biotechnology Journal

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“…The advancement of aptamer-based therapeutics in oncology [46,47], combined with the recent evidences of riboregulation of metabolic enzymes involved in cancer [3,10,11,18,45], open the possibily to employ RNA aptamers to regulate metabolic enzymes and lower their oncogenic potential. The selectivity of such RNA modulators can be tailored to hit specific cell types, taking advantage of the ongoing knowledge on cellspecific targeting of RNA molecules employing different mechanisms of action [48], [49]. In this view, our results pave the way for the design of new aptamers-based treatments employing RNA molecules as allosteric modulators of the activity of selected metabolic enzymes, such approach will be helpful to treat diseases where the dysregulation of serine and glycine plays an important role, including cancer.…”

Section: Discussionmentioning

confidence: 99%

Modelling of SHMT1 riboregulation predicts dynamic changes of serine and glycine levels across cellular compartments

Monti

Guiducci

Paone

et al. 2020

Preprint

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Serine hydroxymethyltransferase (SHMT) regulates the serine-glycine one carbon metabolism and plays a role in cancer metabolic reprogramming. Two SHMT isozymes are acting in the cell: SHMT1 encoding the cytoplasmic isozyme (SHMT1) and SHMT2 encoding the mitochondrial one (SHMT2). Here we present a molecular model built on experimental data reporting the interaction between SHMT1 protein and SHMT2 mRNA, recently discovered in lung cancer cells. Using a stochastic dynamic model, we show that RNA moieties dynamically regulate serine and glycine concentration, shaping the system behaviour. For the first time we observe an active functional role of the RNA in the regulation of the serine-glycine metabolism and availability, which unravels a complex layer of regulation that cancer cells exploit to fine tune aminoacids availability according to their metabolic needs. The quantitative model presented herein exploits RNA molecules as metabolic switches of the SHMT1 activity. Our results pave the way for the development of RNA-based molecules able to unbalance serine metabolism in cancer cells.

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“…Herein, hydrogel-based 3D tumor-TME cultures can be used. One of the main directions nowadays is developing tumor-specific nanoparticles loaded by chemotherapeutical drugs for precision delivery and limitation of adverse effects [7]. The use of the tumor-on-chip model provides an opportunity to monitor drug penetration through the tumor sphere in real time and for analysis of molecular changes by off-chip methods.…”

Section: Radio-and Chemotherapymentioning

confidence: 99%

“…The main therapeutical strategy for non-operative patients in the IIIB-IV disease stages is a combination of chemotherapy and targeted or immunotherapy. For patients with driver mutations, such as EGFR (10% of NSCLC cases) and BRAF (0.5-4.9% of lung adenocarcinomas), and rearrangements in ROS1 (1-2% of lung adenocarcinomas) and ALK (3-7% of lung adenocarcinomas) gene-targeted therapy can be used [6,7]. Nowadays, the main immune therapy strategy used for LC treatment is immune checkpoint inhibitors (ICIs).…”

Section: Introductionmentioning

confidence: 99%

Clinical Application Perspectives of Lung Cancers 3D Tumor Microenvironment Models for In Vitro Cultures

Wieleba

Wojas‐Krawczyk

Krawczyk

et al. 2022

IJMS

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Despite the enormous progress and development of modern therapies, lung cancer remains one of the most common causes of death among men and women. The key element in the development of new anti-cancer drugs is proper planning of the preclinical research phase. The most adequate basic research exemplary for cancer study are 3D tumor microenvironment in vitro models, which allow us to avoid the use of animal models and ensure replicable culture condition. However, the question tormenting the scientist is how to choose the best tool for tumor microenvironment research, especially for extremely heterogenous lung cancer cases. In the presented review we are focused to explain the key factors of lung cancer biology, its microenvironment, and clinical gaps related to different therapies. The review summarized the most important strategies for in vitro culture models mimicking the tumor–tumor microenvironmental interaction, as well as all advantages and disadvantages were depicted. This knowledge could facilitate the right decision to designate proper pre-clinical in vitro study, based on available analytical tools and technical capabilities, to obtain more reliable and personalized results for faster introduction them into the future clinical trials.

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Aptamers in Non-Small Cell Lung Cancer Treatment

Cited by 10 publications

References 85 publications

Modelling of SHMT1 riboregulation predicts dynamic changes of serine and glycine levels across cellular compartments

Modelling of SHMT1 riboregulation predicts dynamic changes of serine and glycine levels across cellular compartments

Modelling of SHMT1 riboregulation predicts dynamic changes of serine and glycine levels across cellular compartments

Clinical Application Perspectives of Lung Cancers 3D Tumor Microenvironment Models for In Vitro Cultures

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