Câncer de pele não melanoma: revisão integrativa / Non-melanoma skin cancer: an integrative review

Introdução: O câncer de pele não melanoma compeende grupo de neoplasias com alta incidência na população mundial. É dividido em carcinoma basocelular e de células escamosas. Por ser de grande prevalência, entender o processo de oncogênese e a relação com íons, proteínas e receptores celulares no câncer de pele não melanoma pode contribuir para que novas terapêuticas sejam avaliadas. Objetivo: Entender o processo da oncogênese dos tumores de pele não melanomas e sua relação com a imunolocalização do IP3R. Métodos: Revisão integrativa da literatura com síntese de evidências. A base de dados foi o PubMed; a estratégia de busca: "carcinoma espinocelular, AND/ OR carcinoma basocelular, AND/OR IP3R, AND/OR imunoistoquímica". Foram considerados para revisão os trabalhos publicados entre 2018 e 2023. Foram incluídos 40 trabalhos, integralmente lidos e resumidos. Resultados: Câncer de pele não melanoma são os tumores malignos mais comuns em todo o mundo, sendo 75-80% o carcinoma basocelular, e até 25% o de células escamosas. As interações moleculares de forma geral, envolvem grande participação de moléculas supressoras tumorais, assim como de procto-oncogenes. Além disso, canais iônicos voltagem dependente controlam o fluxo citosólico de íons, dentre eles o cálcio. O IP3R (receptor do fosfatidil inositol-3) permite a saída de cálcio do retículo endoplasmático para que seja utilizado pela célula para atividades fisiológias como proliferação, angiogênese, motilidade e capacidade de invasão. Conclusão: O IP3R, pelas características de expressão imunoistoquímica, parece estar relacionado também, à fisiopatologia do câncer de pele não melanoma.

Introduction: Non-melanoma skin cancer comprises a group of neoplasms with a high incidence in the world population. It is divided into basal cell carcinoma and squamous cell carcinoma. As it is highly prevalent, understanding the process of oncogenesis and the relationship with ions, proteins and cellular receptors in nonmelanoma skin cancer can contribute to the evaluation of new therapies. Objective: To understand the oncogenesis process of non-melanoma skin tumors and its relationship with the immunolocalization of IP3R. Methods: Integrative literature review with evidence synthesis. The database was PubMed; the search strategy: "squamous cell carcinoma, AND/OR basal cell carcinoma, AND/OR IP3R, AND/OR immunohistochemistry". Works published between 2018 and 2023 were considered for review; 40 works were included, fully read and summarized. Results: Non-melanoma skin cancer is the most common malignant tumor worldwide, with 75-80% being basal cell carcinoma, and up to 25% being cell carcinoma. Molecular interactions in general involve a large participation of tumor suppressor molecules, as well as procto-oncogenes. Furthermore, voltage-dependent ion channels control the cytosolic flow of ions, including calcium. The IP3R (phosphatidyl inositol-3 receptor) allows the exit of calcium from the endoplasmic reticulum so that it can be used by the cell for physiological activities such as proliferation, angiogenesis, motility and invasion capacity. Conclusion: The IP3R, due to its immunohistochemical expression characteristics, appears may also be related to the pathophysiology of nonmelanoma skin cancer.

The ATP Level in the mPFC Mediates the Antidepressant Effect of Calorie Restriction / 神经科学通报·英文版

Food deprivation can rescue obesity and overweight-induced mood disorders, and promote mood performance in normal subjects. Animal studies and clinical research have revealed the antidepressant-like effect of calorie restriction, but little is known about the mechanism of calorie restriction-induced mood modification. Previous studies have found that astrocytes modulate depressive-like behaviors. Inositol 1,4,5-trisphosphate receptor type 2 (IP3R2) is the predominant isoform in mediating astrocyte Ca

The ATP Level in the mPFC Mediates the Antidepressant Effect of Calorie Restriction / 神经科学通报·英文版

Food deprivation can rescue obesity and overweight-induced mood disorders, and promote mood performance in normal subjects. Animal studies and clinical research have revealed the antidepressant-like effect of calorie restriction, but little is known about the mechanism of calorie restriction-induced mood modification. Previous studies have found that astrocytes modulate depressive-like behaviors. Inositol 1,4,5-trisphosphate receptor type 2 (IP3R2) is the predominant isoform in mediating astrocyte Ca

Effects of Huangpu Tongqiao Capsules on EGFR-PLCγ signal pathway of hippocampus in rats with Alzheimer's disease / 中国中药杂志

Huangpu Tongqiao Capsules(HPTQC), with the functions of invigorating Qi and kidney, eliminating phlegm and removing blood stasis, have the effect of treating Alzheimer's disease(AD), but its mechanism needs further exploration. To explore the relationship between the therapeutic mechanism of HPTQC on Alzheimer's disease and EGFR-PLCγ signal pathway, 40 healthy male SD rats were selected and divided into 4 groups randomly: sham operation group(sham), model group(model), HPTQC group(HPTQC), and nimodipine group(NMP). AD rat model was established by intraperitoneal injection of D-galactose combined with an intracerebral injection of amyloid-β peptide(25-35). After 28 days of administration, Morris water maze test and HE staining showed that the learning and memory ability of AD rats were significantly decreased(P<0.01), and hippocampal neurons were obviously da-maged. However, HPTQC could improve the learning and memory ability of AD rats(P<0.05) and reduce the damage of hippocampal neurons. Immunofluorescence test results showed that the expression levels of EGFR and p-Tau in hippocampal CA1 region of AD rats were significantly increased(P<0.01), and HPTQC could reduce the expression of EGFR and p-Tau in hippocampus of AD rats(P<0.01). Western blot results showed that the protein expression levels of EGFR, PLCγ, IP3 R and p-Tau in hippocampus of AD rats were significantly increased(P<0.01), and HPTQC could reduce the protein expression of EGFR, PLCγ, IP3 R and p-Tau in AD rats(P<0.05). RT-PCR results showed that the mRNA levels of EGFR, PLCγ, IP3 R and Tau in hippocampus of AD rats were significantly increased(P<0.01), and HPTQC could reduce the mRNA levels of EGFR, PLCγ, IP3 R and Tau in AD rats(P<0.05). The results indicate that HPTQC can improve the learning and memory ability of AD rats, and its mechanism of action may be related to regulating EGFR-PLCγ signal pathway.

Effects of Sp1 on IP3R1 protein expression in human mesangial cells / 中华微生物学和免疫学杂志

Objective To investigate the effects of specific protein 1 ( Sp1 ) on the TNF-αin-duced expression of inositol 1, 4, 5 trisphosphate receptor type 1 ( IP3R1 ) in human mesangial cells ( HMCs) and to further elucidate the molecular mechanism regarding the decreased glomerular filtration rate ( GFR ) during hepatorenal syndrome .Methods Quantitative real-time polymerase chain reaction and Western blot assay were used to analyze the effects of TNF-αon the expression of IP3R1 at mRNA level and the expression of IP3R1 and Sp1 at protein level in HMCs , respectively.HMCs were transfected with a re-combinant plasmid PGL3-IP3R1 promoter to determine the effects of TNF-αon the activity of IP3R1 promot-er.HMCs were treated with Mithramycin A , an inhibitor of Sp1 binding, and transfected with Sp1-siRNA plasmid respectively to evaluate the expression of IP 3R1 regulated by TNF-α.The role of TNFR1 and TNFR2 in the TNF-αinduced expression of Sp 1 and IP3R1 proteins were detected by Western blot .Results TNF-αincreased the expression of IP3R1 at mRNA level and the expression of IP3R1 and Sp1 at protein lev-el in HMCs.Moreover, the activity of IP3R1 promoter in HMCs was remarkably increased by TNF-αas well.TNF-αinduced expression of IP3R1 was inhibited by Mithramycin A in a concentration dependent manner.HMCs transfected with Sp1-siRNA plasmid showed a significantly decreased expression of IP 3R1 protein.Both anti-TNFR1 and anti-TNFR2 antibodies blocked the TNF-αinduced IP3R1 expression, while only anti-TNFR1 antibodies inhibited the TNF-αinduced Sp1 expression.Conclusion TNF-αmight in-crease the expression of IP3R1 through the TNFR1/Sp1 signaling pathways in HMCs .

Cordycepin-Enriched WIB801C from Cordyceps militaris Inhibits Collagen-Induced Ca2+i Mobilization via cAMP-Dependent Phosphorylation of Inositol 1, 4, 5-Trisphosphate Receptor in Human Platelets

In this study, we prepared cordycepin-enriched (CE)-WIB801C, a n-butanol extract of Cordyceps militaris-hypha, and investigated the effect of CE-WIB801C on collagen-induced human platelet aggregation. CE-WIB801C dose-dependently inhibited collagen-induced platelet aggregation, and its IC50 value was 175 microg/ml. CE-WIB801C increased cAMP level more than cGMP level, but inhibited collagen-elevated [Ca2+]i mobilization and thromboxane A2 (TXA2) production. cAMP-dependent protein kinase (A-kinase) inhibitor Rp-8-Br-cAMPS increased the CE-WIB801C-downregulated [Ca2+]i level in a dose dependent manner, and strongly inhibited CE-WIB801C-induced inositol 1, 4, 5-trisphosphate receptor (IP3R) phosphorylation. These results suggest that the inhibition of [Ca2+]i mobilization by CE-WIB801C is resulted from the cAMP/A-kinase-dependent phosphorylation of IP3R. CE-WIB801C suppressed TXA2 production, but did not inhibit the activities of cyclooxygenase-1 (COX-1) and TXA2 synthase (TXAS). These results suggest that the inhibition of TXA2 production by WIB801C is not resulted from the direct inhibition of COX-1 and TXAS. In this study, we demonstrate that CE-WIB801C with cAMP-dependent Ca2+-antagonistic antiplatelet effects may have preventive or therapeutic potential for platelet aggregation-mediated diseases, such as thrombosis, myocardial infarction, atherosclerosis, and ischemic cerebrovascular disease.

PC-PLC/PKC-α pathway involves in TNF-α-induced IP3R1 expression in human mesangial cells / 中华急诊医学杂志

Objective To explore the effects of TNF-α on the expression of IP33R1 mRNA and protein in human mesangial cells (HMCs) and elucidate the mechnism of TNF-α indnces the IP3R1 expression in the occurrence of hepatorenal syndrome (HRS).Methods HMCs was stimulated by tumor (TNF-α) with 100 ng/mL for different hours (2,4,8,24 hours).The expression change of IP3R1 mRNA and protein were detected by quantitative real-time polymerase chain reaction and immunoblot assay.Several inhibitors including D609,U73122,PP1,Safingol,Rottlerin and non-radioactive PKC assay to examine the mechanism of signal transduction of TNF-α-regulated IP3R1 in HMCs.Results The levels of IP3R1 mRNA at 2 h post-TNF-α exposure were significantly enhanced and reached peak at 8 h in HMCs (P ＜ 0.01),then descened at 24 h (P ＜ 0.01).The levels of IP3R1 protein at 4 h post-TNF-α exposure were obviously increased and reached peak at 24 h post-TNF-α exposure (P ＜ 0.01).Compared with the control group,safingol (PKC-α inhibitor) and D609 (PC-PLC inhibitor) each significantly suppressed TNF-α-induced expression of IP3R1 mRNA (3.30 ± 0.81) vs.(1.95 ± 0.130,P ＜ 0.05 ; (2.10 ± 0.49),P ＜ 0.01 andIP3R1 protein (3.09±0.13) vs.(1.86+0.39),P＜0.01; (1.98±0.02),P＜0.01.TNF-αpromoted autophosphorylation,and hence the activation,of PKC-α with maximal phosphorylation that occurred 8 h post-stimulation measured by non-radioactive PKC assay,and the effect was marked attenuated by pretreated with D609 or safingol.Conclusions TNF-α increased the expression of IP3R1 and this was mediated,at least in part,through the PC-PLC/PKC-α signaling pathways in HMCs.

Effects of PKC on TNF-α stimulated IP3 R1 protein expression in human mesangial cells / 中华微生物学和免疫学杂志

Objective To explore the effects of TNF-α on the expression of IP3 R1 mRNA and protein in human mesangial cells (HMCs) and elucidate the role of protein kinase C (PKC) in this signal pathway.Methods Quantitative real-time polymerase chain reaction and immunoblot assay were used to examine the effects of TNF-α on IP3R1 mRNA and protein expression.Depletion PKC,the selective inhibitor of PKCα Safingol and inhibitor of PKCδ Rottlerin,overexpression of dominant negative mutant of PKC to examine the mechanism of signal transduction of TNF-α-regulated IP3 R1 in HMCs.PKCα activation was assayed by Western blot.Results TNF-α increased IP3R1 mRNA and protein expression in HMCs,effects that were blocked by prolonged incubted chronic PMA,Safingol and also by domain negative PKCα construct.TNF-α promoted PKCα activation with maximal PKCα phosphorylation that occurred 8 h post-stimulation.Conclusion TNF-α increased the expression of IP3 R1 and this was mediated through the PKCα activation signaling pathways in HMCs.

H2O2 Enhances Ca2+ Release from Osteoblast Internal Stores

The physiological activity of osteoblasts is known to be closely related to increased intracellular Ca2+ activity ([Ca2+]i) in osteoblasts. The cellular regulation of [Ca2+]i in osteoblasts is mediated by Ca2+ movements associated with Ca2+ release from intracellular Ca2+ stores, and transmembrane Ca2+ influx via Na+-Ca2+ exchanger, and Ca2+ ATPase. Reactive oxygen species, such as H2O2, play an important role in the regulation of cellular functions, and act as signaling molecules or toxins in cells. In this study, we investigated the effects of H2O2 on cellular Ca2+ regulation in osteoblasts by measuring intracellular Ca2+ activities using cellular calcium imaging techniques. Osteoblasts were isolated from the femurs and tibias of neonatal rats, and cultured for 7 days. The cultured osteoblasts were loaded with a Ca2+-sensitive fluorescent dye, Fura-2, and fluorescence images were monitored using a cooled CCD camera, and subsequently analyzed using image analyzing software. The results obtained are as follows: (1) The osteoblasts with lower basal Ca2+ activities yielded a transient Ca2+ increase, a Ca2+ spike, while osteoblasts with higher basal Ca2+ activities showed a continuous increase in [Ca2+]i leading to cell death. (2) Ca2+ spikes, generated after removing Na+ from superfusing solutions, were blocked by H2O2 and this was followed by a sustained increase in Ca2+ activity. (3) ATP- induced Ca2+ spikes were inhibited by pretreating with H2O2 and this was followed by a continuous increase of [Ca2+]i. When cells were pretreated with the exogenous nitric oxide (NO) donor S-Nitroso-N-acetylpenicilance (SNAP, 50 microM), treatments of ATP (1 mM) induced a Ca2+ spike-like increase, but [Ca2+]i did not return to the basal level. (4) The expression of inositol- 1,4,5-triphosphate receptor (IP3R) was enhanced by H2O2. Our results suggest that H2O2 modulates intracellular Ca2+ activity in osteoblasts by increasing Ca2+ release from the intracellular Ca2+ stores.