This paper aims to explore the effects of a rotating plasma-activated liquid on the dynamic propagation and biomedical application of a helium plasma jet.The spatial distribution of reactive species and the associated...This paper aims to explore the effects of a rotating plasma-activated liquid on the dynamic propagation and biomedical application of a helium plasma jet.The spatial distribution of reactive species and the associated physico-chemical reactions are altered by the rotating liquid,which shows a significant weakening in the axial propagation of the plasma bullet and a strengthening in its radial expansion at the liquid surface.The phenomenon is prompted by the nonzero rotational velocity of the liquid and is regulated by airflow,target distance and liquid permittivity.The concentrations of aqueous reactive species,especially OH and O~-,and the inactivation effectiveness on cancer cells are weakened,indicating that a rotating liquid is not conducive to water treatment of the plasma jet although the treatment area of the plasma jet increases dynamically.This finding is of significance for the plasma–liquid interaction and the biomedical-related applications of plasma jets.展开更多
The tumor suppressor p53 is a key player in the control of genomic integrity and homeostasis in connection with p63 and p73,the two other members of the p53 family.Loss of functional p53 leads to the proliferation and...The tumor suppressor p53 is a key player in the control of genomic integrity and homeostasis in connection with p63 and p73,the two other members of the p53 family.Loss of functional p53 leads to the proliferation and survival of mature cells and progenitor or stem cells that accumulate genetic alterations,thus favoring tumorigenesis.p53 loss of function,observed in a wide variety of human tumor types,is frequently caused by missense mutations more frequently found in the DNA binding domain,but can also be due to the expression of a plethora of viral and cellular negative regulators.Human hepatocellular carcinoma(HCC)represents a specific situation,first because the TP53 gene mutations pattern exhibits a“hot spot”rarely found in other tumor types that is linked to Aflatoxin B1 exposure and,second,because many HCCs do not exhibit any TP53 mutation.Here,we provide an overview of the current knowledge about the inhibition of p53 functions by the N-terminal(ΔN)truncated forms of the family,and their role in the emergence and maintenance of pre-malignant cells with stem cell characteristics and in HCC development.We focus in particular on the Nanog-IGF1R-ΔNp73 axis that is associated with stem-like features in HCC cells and that may provide an attractive new therapeutic target and help to develop new biomarkers for HCC risk stratification,as well as preventive strategies.展开更多
基金supported by National Natural Science Foundation of China(No.52107162)the Science and Technology Projects of Shaanxi Province(No.2022CGBX12)the Science and Technology Projects of Xi’an City(No.2021SFCX0005)。
文摘This paper aims to explore the effects of a rotating plasma-activated liquid on the dynamic propagation and biomedical application of a helium plasma jet.The spatial distribution of reactive species and the associated physico-chemical reactions are altered by the rotating liquid,which shows a significant weakening in the axial propagation of the plasma bullet and a strengthening in its radial expansion at the liquid surface.The phenomenon is prompted by the nonzero rotational velocity of the liquid and is regulated by airflow,target distance and liquid permittivity.The concentrations of aqueous reactive species,especially OH and O~-,and the inactivation effectiveness on cancer cells are weakened,indicating that a rotating liquid is not conducive to water treatment of the plasma jet although the treatment area of the plasma jet increases dynamically.This finding is of significance for the plasma–liquid interaction and the biomedical-related applications of plasma jets.
基金This work was supported by grants from 《Agence Nationale pour la Recherche sur le SIDA et les hepatites virales》(ANRS)(ECTZ117561)to Levrero M,from the Agence Nationale de la Recherche(ANR@TRACTION)to Levrero Mfrom the EU project(667273 HEP-CAR)to Levrero Mfrom the Ligue Nationale Contre le Cancer,Coordination Auvergne-Rhône-Alpes&Saône-et-Loire to Caron de Fromentel C and Levrero M.
文摘The tumor suppressor p53 is a key player in the control of genomic integrity and homeostasis in connection with p63 and p73,the two other members of the p53 family.Loss of functional p53 leads to the proliferation and survival of mature cells and progenitor or stem cells that accumulate genetic alterations,thus favoring tumorigenesis.p53 loss of function,observed in a wide variety of human tumor types,is frequently caused by missense mutations more frequently found in the DNA binding domain,but can also be due to the expression of a plethora of viral and cellular negative regulators.Human hepatocellular carcinoma(HCC)represents a specific situation,first because the TP53 gene mutations pattern exhibits a“hot spot”rarely found in other tumor types that is linked to Aflatoxin B1 exposure and,second,because many HCCs do not exhibit any TP53 mutation.Here,we provide an overview of the current knowledge about the inhibition of p53 functions by the N-terminal(ΔN)truncated forms of the family,and their role in the emergence and maintenance of pre-malignant cells with stem cell characteristics and in HCC development.We focus in particular on the Nanog-IGF1R-ΔNp73 axis that is associated with stem-like features in HCC cells and that may provide an attractive new therapeutic target and help to develop new biomarkers for HCC risk stratification,as well as preventive strategies.
