Role of Hydrogen Sulfide in Oncological and Non-Oncological Disorders and Its Regulation by Non-Coding RNAs: A Comprehensive Review

Youness, Rana A.; Habashy, Danira Ashraf; Khater, Nour; Elsayed, Kareem; Dawoud, Alyaa; Hakim, Sousanna; Nafea, Heba; Bourquin, Carole; Abdel-Kader, Reham M.; Gad, Mohamed Z.

doi:10.3390/ncrna10010007

ncRNA

2024

DOI: 10.3390/ncrna10010007

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Role of Hydrogen Sulfide in Oncological and Non-Oncological Disorders and Its Regulation by Non-Coding RNAs: A Comprehensive Review

Rana A. Youness,

Danira Ashraf Habashy,

Nour Khater

et al.

Abstract: Recently, myriad studies have defined the versatile abilities of gasotransmitters and their synthesizing enzymes to play a “Maestro” role in orchestrating several oncological and non-oncological circuits and, thus, nominated them as possible therapeutic targets. Although a significant amount of work has been conducted on the role of nitric oxide (NO) and carbon monoxide (CO) and their inter-relationship in the field of oncology, research about hydrogen sulfide (H2S) remains in its infancy. Recently, non-coding… Show more

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Cited by 4 publications

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Nanomaterials for Endogenous and Exogenous Hydrogen Sulfide-Based NIR Photothermal Cancer Therapy: A Review

Zeng,

Wu,

Pan

et al. 2024

ACS Appl. Nano Mater.

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Hydrogen sulfide (H 2 S) is recognized as the third gaseous signaling molecule present, playing a crucial role in cellular processes. When designing nanomaterials, H 2 S not only serves as a cancer biomarker but also directly influences tumor cell proliferation and metastasis by modulating its concentration. However, gas donor inability to actively accumulate within tumors and release gas in a controlled manner results in restricted cancer treatment efficacy and potential toxic side effects. Near-infrared (NIR) responsive photothermal probes are characterized by their rapid response time, high selectivity, sensitivity, and noninvasive attributes. They offer the opportunity for precise, real-time, and controlled modulation of H 2 S concentrations at both cellular and murine levels. The integration of photothermal therapy with gas therapy and other treatment modalities through multifunctional nanocarrier platforms shows promise in enhancing cancer treatment outcomes while minimizing adverse effects. The development of multifunctional probes capable of controllably modulating H 2 S concentrations and photothermal properties is considered essential yet challenging in academic research. This Review critically assesses two primary approaches in tumor NIR photothermal strategies involving H 2 S: multifunctional photothermal probes targeted utilizing H 2 S as a biomarker and probes combining H 2 S gas therapy with photothermal and alternative modalities. Additionally, this Review addresses the current limitations of these technologies and outlines potential future directions for advancement. Overall, this Review aims to provide insights and guidance for the seamless integration of H 2 S and photothermal probes in cancer therapy, aligning with the rigorous standards of academic journals.

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Nanomaterials for Endogenous and Exogenous Hydrogen Sulfide-Based NIR Photothermal Cancer Therapy: A Review

Zeng,

Wu,

Pan

et al. 2024

ACS Appl. Nano Mater.

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Emerging roles of hydrogen sulfide-metabolizing enzymes in cancer

Dawoud,

Youness,

Elsayed

et al. 2024

Redox Report

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Gasotransmitters play crucial roles in regulating many physiological processes, including cell signaling, cellular proliferation, angiogenesis, mitochondrial function, antioxidant production, nervous system functions and immune responses. Hydrogen sulfide (H 2 S) is the most recently identified gasotransmitter, which is characterized by its biphasic behavior. At low concentrations, H 2 S promotes cellular bioenergetics, whereas at high concentrations, it can exert cytotoxic effects. Cystathionine β-synthetase (CBS), cystathionine-γ-lyase (CSE), 3-mercaptopyruvate sulfurtransferase (3-MST), and cysteinyl-tRNA synthetase 2 (CARS2) are pivotal players in H 2 S biosynthesis in mammalian cells and tissues. The focus of this review is the regulation of the various pathways involved in H 2 S metabolism in various forms of cancer. Key enzymes in this process include the sulfide oxidation unit (SOU), which includes sulfide:quinone oxidoreductase (SQOR), human ethylmalonic encephalopathy protein 1 (hETHE1), rhodanese, sulfite oxidase (SUOX/SO), and cytochrome c oxidase (CcO) enzymes. Furthermore, the potential role of H 2 S methylation processes mediated by thiol S-methyltransferase (TMT) and thioether S-methyltransferase (TEMT) is outlined in cancer biology, with potential opportunities for targeting them for clinical translation. In order to understand the role of H 2 S in oncogenesis and tumor progression, one must appreciate the intricate interplay between H 2 S-synthesizing and H 2 S-catabolizing enzymes.

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Pan-inhibition of the three H2S synthesizing enzymes restrains tumor progression and immunosuppression in breast cancer

Dawoud,

Youness,

Nafea

et al. 2024

Cancer Cell Int

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Background Hydrogen sulfide (H2S) is a significant endogenous mediator that has been implicated in the progression of various forms of cancer including breast cancer (BC). Cystathionine-β-synthase (CBS), cystathionine-γ-lyase (CSE), and 3-mercaptopyruvate sulfurtransferase (3MST) are the three principal mammalian enzymes responsible for H2S production. Overexpression of CBS, CSE and 3MST was found to be associated with poor prognosis of BC patients. Moreover, H2S was linked to an immune-suppressive tumor microenvironment in BC. Recently it was observed that BC cells, in response to single or dual inhibition of H2S synthesizing enzymes, develop an escape mechanism by overexpressing alternative sources of H2S generation. Thus, the aim of this work is to escape the H2S compensatory mechanism by pan repressing the three enzymes using microRNAs (miRNAs) and to investigate their impact on the oncogenic and immunogenic profile of BC cells. Methods BC female patients (n = 25) were recruited. In-silico analysis was used to identify miRNAs targeting CBS, CSE, and 3MST. MDA-MB-231 cells were cultured and transfected using oligonucleotides. Total RNA was extracted using Biazol, reverse transcribed and quantified using qRT-PCR. H2S levels were measured using AzMc assay. BC hallmarks were assessed using trans-well migration, wound healing, MTT, and colony forming assays. Results miR-193a and miR-548c were validated by eight different bioinformatics software to simultaneously target CBS, CSE and 3MST. MiR-193a and miR-548c were significantly downregulated in BC tissues compared to their non-cancerous counterparts. Ectopic expression of miR-193a and miR-548c in MDA-MB-231 TNBC cells resulted in a marked repression of CBS, CSE, and 3MST transcript and protein levels, a significant decrease in H2S levels, reduction in cellular viability, inhibition of migration and colony forming ability, repression of immune-suppressor proteins GAL3 GAL9, and CD155 and upregulation of the immunostimulatory MICA and MICB proteins. Conclusion This study sheds the light onto miR-193a and miR-548c as potential pan-repressors of the H2S synthesizing enzymes. and identifies them as novel tumor suppressor and immunomodulatory miRNAs in TNBC.

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Role of Hydrogen Sulfide in Oncological and Non-Oncological Disorders and Its Regulation by Non-Coding RNAs: A Comprehensive Review

Cited by 4 publications

References 264 publications

Nanomaterials for Endogenous and Exogenous Hydrogen Sulfide-Based NIR Photothermal Cancer Therapy: A Review

Nanomaterials for Endogenous and Exogenous Hydrogen Sulfide-Based NIR Photothermal Cancer Therapy: A Review

Emerging roles of hydrogen sulfide-metabolizing enzymes in cancer

Pan-inhibition of the three H2S synthesizing enzymes restrains tumor progression and immunosuppression in breast cancer

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