Yang-Zhe Qin scite author profile

Hydrogen sulfide (H2S), as one of the three known gaseous signal transduction molecules in organisms, has attracted a surging amount of attention. H2S is involved in a variety of physiological and pathological processes in the body, such as dilating blood vessels (regulating blood pressure), protecting tissue from ischemia-reperfusion injury, anti-inflammation, carcinogenesis, or inhibition of cancer, as well as acting on the hypothalamus and pancreas to regulate hormonal metabolism. The change of H2S concentration is related to a variety of endocrine disorders, and the change of hormone concentration also affects the synthesis of H2S. Understanding the effect of biosynthesis and the concentration of H2S on the endocrine system is useful to develop drugs for the treatment of hypertension, diabetes, and other diseases.

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Hydrogen sulfide-induced post-translational modification as a potential drug target

Chen

Qian

et al. 2023

Genes & Diseases

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Recent advances in the role of endogenous hydrogen sulphide in cancer cells

Chen

Qin

et al. 2023

Cell Proliferation

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Hydrogen sulphide (H2S) is a gaseous neurotransmitter that can be self‐synthesized by living organisms. With the deepening of research, the pathophysiological mechanisms of endogenous H2S in cancer have been increasingly elucidated: (1) promote angiogenesis, (2) stimulate cell bioenergetics, (3) promote migration and proliferation thereby invasion, (4) inhibit apoptosis and (5) activate abnormal cell cycle. However, the increasing H2S levels via exogenous sources show the opposite trend. This phenomenon can be explained by the bell‐shaped pharmacological model of H2S, that is, the production of endogenous (low concentration) H2S promotes tumour growth while the exogenous (high concentration) H2S inhibits tumour growth. Here, we review the impact of endogenous H2S synthesis and metabolism on tumour progression, summarize the mechanism of action of H2S in tumour growth, and discuss the possibility of H2S as a potential target for tumour treatment.

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Biology of PEST‐Containing Nuclear Protein: A Potential Molecular Target for Cancer Research

et al. 2022

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PEST-containing nuclear protein (PCNP), a novel nuclear protein, is involved in vital cellular processes like cell proliferation and mediates tumorigenesis. PCNP is a short-living, small nuclear protein of only 178 amino acids with two remarkable PEST sequences that are rich in proline (P), glutamic acid (E), serine (S), and threonine (T). The current understanding of PCNP reveals that PCNP has the ability to interact with cell cycle regulatory proteins; tumor suppressors (p53 and pRB), and promoters (cyclin E and cyclin D) to determine the fate of tissues to facilitate the process of either apoptosis or cell proliferation. In many preclinical studies, it has been evaluated that PCNP expression has associations with the development and progression of various cancers like neuroblastoma, lung adenocarcinoma, and ovarian cancer. Based on these depicted novel roles of PCNP in cell cycleregulation and of PCNP in tumorigenesis, it is logical to consider PCNP as a potential molecular target for cancer research. The aim of the current communication is to present an update on PCNP research and discussion on the potential role of PCNP in cancer development with challenges and opportunities perspectives. Considering the available evidence as a baseline for our statement, we anticipate that in the future, new research insights will strengthen the aim to develop PCNP-based diagnostic and therapeutic approaches that will move the PCNP from the laboratory to the cancer clinic.

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Yang-Zhe Qin

Role of Hydrogen Sulfide in the Endocrine System

Hydrogen sulfide-induced post-translational modification as a potential drug target

Recent advances in the role of endogenous hydrogen sulphide in cancer cells

Biology of PEST‐Containing Nuclear Protein: A Potential Molecular Target for Cancer Research

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