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1.
J Cell Physiol ; 235(3): 1903-1914, 2020 03.
Artículo en Inglés | MEDLINE | ID: mdl-31332789

RESUMEN

Transforming growth factor ß (TGF-ß) is part of the transforming growth factor ß superfamily which is involved in many physiological processes and closely related to the carcinogenesis. Here, we discuss the TGF-ß structure, function, and its canonical Smads signaling pathway. Importantly, TGF-ß has been proved that it plays both tumor suppressor as well as an activator role in tumor progression. In an early stage, TGF-ß inhibits cell proliferation and is involved in cell apoptosis. In an advanced tumor, TGF-ß signaling pathway induces tumor invasion and metastasis through promoting angiogenesis, epithelial-mesenchymal transition, and immune escape. Furthermore, we are centered on updated research results into the inhibitors as drugs which have been studied in preclinical or clinical trials in tumor carcinogenesis to prevent the TGF-ß synthesis and block its signaling pathways such as antibodies, antisense molecules, and small-molecule tyrosine kinase inhibitors. Thus, it is highlighting the crucial role of TGF-ß in tumor therapy and may provide opportunities for the new antitumor strategies in patients with cancer.


Asunto(s)
Neoplasias/metabolismo , Transducción de Señal/fisiología , Factor de Crecimiento Transformador beta/metabolismo , Animales , Antineoplásicos/farmacología , Apoptosis/efectos de los fármacos , Proliferación Celular/efectos de los fármacos , Humanos , Neoplasias/tratamiento farmacológico , Transducción de Señal/efectos de los fármacos
2.
J Cell Physiol ; 233(2): 1312-1320, 2018 Feb.
Artículo en Inglés | MEDLINE | ID: mdl-28500630

RESUMEN

Deletion of p53, most common genetic alteration, is observed in human tumors and reported to lead to improve in cell radioresistance. Heavy-ion irradiation (IR) could induce p53-/- cancer cells apoptosis. However, little is known regarding the molecular mechanism in this type of cell apoptosis. The present studies have focused on mechanisms state of signaling pathways as an activator of the cell fate decisions induced by heavy ion IR without p53. Carbon ion IR could induce up-regulation of E2F1 expression in cancer cells. This phenomenon was not observed in X-ray IR group. Up-regulation of E2F1 could cause a higher reduction in clonogenic survival, low level of cellular activity, G2 /M phase arrest, promotion of apoptosis rate, up-regulation of phosphor-Rb, Bax, and cleaved-caspase 3 proteins expressions without p53. Changes of E2F1 expressions could partly alter radioresistance in cancer cells. The results were suggested that heavy ion IR could induce p53-/- cancer cells apoptosis via E2F1 signal pathway. Our study provides a scientific rationale for the clinical use of heavy ion as radiotherapy in patients with p53-deficient tumors, which are often resistant to radiotherapy.


Asunto(s)
Apoptosis/efectos de la radiación , Carcinoma Hepatocelular/tratamiento farmacológico , Caspasa 3/metabolismo , Factor de Transcripción E2F1/metabolismo , Radioterapia de Iones Pesados , Neoplasias Hepáticas/radioterapia , Tolerancia a Radiación , Proteína X Asociada a bcl-2/metabolismo , Células A549 , Carcinoma Hepatocelular/enzimología , Carcinoma Hepatocelular/genética , Carcinoma Hepatocelular/patología , Relación Dosis-Respuesta en la Radiación , Factor de Transcripción E2F1/genética , Puntos de Control de la Fase G2 del Ciclo Celular/efectos de la radiación , Regulación Neoplásica de la Expresión Génica , Células Hep G2 , Humanos , Neoplasias Hepáticas/enzimología , Neoplasias Hepáticas/genética , Neoplasias Hepáticas/patología , Transducción de Señal/efectos de la radiación , Proteína p53 Supresora de Tumor/genética , Proteína p53 Supresora de Tumor/metabolismo , Regulación hacia Arriba
3.
Toxicol Res (Camb) ; 6(6): 958-968, 2017 Nov 01.
Artículo en Inglés | MEDLINE | ID: mdl-30090556

RESUMEN

High linear energy transfer radiation is known to deposit higher energy in tissues and cause greater toxicity compared to low-LET irradiation. Local immunosuppression is frequently observed after irradiation (IR). Dendritic cells (DCs) play important roles in the initiation and maintenance of the immune response. The dysfunction of DCs contributes to tumor evasion and growth. However, molecular mechanisms underlying the establishment of immune tolerance induced by heavy ion IR through this DC population are poorly understood. Therefore, here we report our findings on the dysfunction of bone marrow-derived dendritic cells (BMDCs) induced by 1 Gy iron ion radiation and promotions of expressions of JNK1/2/3, indoleamine 2,3-dioxygenase 1 (IDO1), p-ERK1/2 and p38/MAPK; and decrease of IDO2, MHC class II, CD40, CD80 expressions and IFN-γ and TNF-α secretion after total-body IR in mice. JNK+IDO1+ BMDCs showed up-expression of p-ERK1/2 and p-p38/MAPK, reduced expression of MHC class II and CD80, and were not able to effectively stimulate allogeneic spleen T cells. The inhibition of IDO1 expressions could partly restore the function of BMDCs. In all, our study shows that elevated JNK and IDO1 expression induced by Fe ion IR could result in dysfunction of BMDCs via p-p38/MAPK and p-ERK1/2 signal pathway, and it may represent a new mechanism in radiation-induced immune tolerance.

4.
Artículo en Zh | WPRIM | ID: wpr-827808

RESUMEN

To investigate the potential toxic effects and mechanisms of Tris(1; 3-dichloro-2-propyl) phosphate (TDCIPP) on thyroid in female SD rats. Thirty-two 3-weeks-old female SD rats were randomly divided into normal group(treated with corn oil ), and low/moderate/high-dose group treated with TDCIPP (dissolved in corn oil )(n=8). All rats were treated with corn oil or TDCIPP (50, 100, 250 mg/(kg·d)) once a day during a 21-day period. All rats were sacrificed after the last administration. Serum thyroid stimulating hormone (TSH), 3,3',5-triiodothyronine (T3), 3,3',5,5'-tetraiodothyronine (T4), free 3,3',5,5'-tetraiodothyronine (FT4) were detected with ELISA kit. Morphology of thyroid was observed with hematoxylin and eosin (HE) staining. Expressions of genes and proteins correlate with thyroid were measured respectively by real-time fluorescence quantitative PCR and Western blot. Compared with control group, morphology of thyroid showed follicles irregular arrangement, hypocolloid, and follicular hyperplasia in TDCIPP treatment groups. The levels of serum TSH in low-dose TDCIPP group and T3 in high-dose TDCIPP group were significantly higher than those in control group(P<0.05). Thyroid stimulating hormone receptor (TSHR) mRNA expression was decreased distinctly in low-dose TDCIPP group, while the expression of thyroperoxidase (TPO) mRNA was increased notably in moderate and high-dose TDCIPP groups(P<0.05,P<0.01). Compared with control group, the level of TRβ protein was decreased significantly in moderate and high-dose TDCIPP groups, while the expressions of udp-glucuronosyl-transferases (UGTs) and cytochrome-p450-3A1 (CYP3A1) proteins were upregulated notably in TDCIPP treatment groups(P<0.05). Treated with 50 mg/(kg·d) TDCIPP can cause thyroid hyperplasia, change the levels of thyroid hormones, and disturb thyroid function, therefore, it has toxic effects on the thyroid.

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