Your search keyword '"NOTCH proteins"' showing total 3,059 results

1. Changes in the molecular nodes of the Notch and NRF2 pathways in cervical cancer tissues from the precursor stages to invasive carcinoma.

Author

LIMONES-GONZALEZ, JARED E., ESQUIVEL, PERLA AGUILAR, VAZQUEZ-SANTILLAN, KARLA, CASTRO-OROPEZA, ROSARIO, LIZARRAGA, FLORIA, MALDONADO, VILMA, MELENDEZ-ZAJGLA, JORGE, PIÑA-SANCHEZ, PATRICIA, and MENDOZA-ALMANZA, GRETEL

Subjects

*NUCLEAR factor E2 related factor, *YAP signaling proteins, *NOTCH proteins, *HIPPO signaling pathway, *REVERSE transcriptase polymerase chain reaction, *CERVICAL intraepithelial neoplasia

Abstract

Cancer is a multifactorial disease characterized by the loss of control in the expression of genes known as cancer driver genes. Cancer driver genes trigger uncontrolled cell replication, which leads to the development of malignant tumors. A cluster of signal transduction pathways that contain cancer driver genes involved in cellular processes, such as cell proliferation, differentiation, apoptosis and dysregulated organ growth, are associated with cancer initiation and progression. In the present study, three signal transduction pathways involved in cervical cancer (CC) development were analyzed: The Hippo pathway (FAT atypical cadherin, yes-associated protein 1, SMAD4 and TEA domain family member 2), the Notch pathway [cellular-MYC, cAMP response element-binding binding protein (CREBBP), E1A-associated cellular p300 transcriptional co-activator protein and F-Box and WD repeat domain containing 7] and the nuclear factor erythroid 2-related factor 2 (NRF2) pathway [NRF2, kelch-like ECH-associated protein 1 (KEAP1), AKT and PIK3-catalytic subunit α]. Tumor samples from patients diagnosed with various stages of CC, including cervical intraepithelial neoplasia (CIN) 1, CIN 2, CIN 3, in situ CC and invasive CC, were analyzed. The mRNA expression levels were analyzed using reverse transcription-quantitative PCR assays, whereas protein expression levels were assessed through immunohistochemical tissue microarrays. High mRNA expression levels of c-MYC and AKT and low expression levels of NRF2 and KEAP1 were associated with a decreased survival time of patients with CC. Additionally, increased expression levels of c-MYC were detected in the invasive CC stage. At the protein level, increased NRF2 expression levels were observed in all five stages of CC samples compared with those in the cancer-free control samples. AKT1 was found to be dysregulated in the CIN 1 and CIN 2 stages, PI3K in the in situ and invasive stages, and CREBBP in the CIN 3 and in situ stages. In summary, the present study demonstrated significant changes in proteins of the Notch and NRF2 pathways in CC. NRF2 was overexpressed in all cervical cancer stages (cervical intraepithelial neoplasia, in situ CC and invasive CC). The present study makes an important contribution to the possible biomarker proteins to be analyzed for the presence of premalignant and malignant lesions in the cervix. [ABSTRACT FROM AUTHOR]

Published

2024

2. Mid-life plasma proteins associated with late-life prefrailty and frailty: a proteomic analysis.

Author

Liu, Fangyu, Schrack, Jennifer A., Walston, Jeremy, Mathias, Rasika A., Windham, B. Gwen, Grams, Morgan E., Coresh, Josef, and Walker, Keenan A.

Subjects

FATTY acid-binding proteins, NOTCH proteins, KIDNEY physiology, BLOOD proteins, FRAILTY

Abstract

Physical frailty is a syndrome that typically manifests in later life, although the pathogenic process causing physical frailty likely begins decades earlier. To date, few studies have examined the biological signatures in mid-life associated with physical frailty later in life. Among 4,189 middle-aged participants (57.8 ± 5.0 years, 55.8% women) from the Atherosclerosis Risk in Community (ARIC) study, we evaluated the associations of 4,955 plasma proteins (log 2-transformed and standardized) measured using the SomaScan platform with their frailty status approximately 20 years later. Using multinomial logistic regression models adjusting for demographics, health behaviors, kidney function, total cholesterol, and comorbidities, 12 and 221 proteins were associated with prefrailty and frailty in later life, respectively (FDR p < 0.05). Top frailty-associated proteins included neurocan core protein (NCAN, OR = 0.66), fatty acid-binding protein heart (FABP3, OR = 1.62) and adipocyte (FABP4, OR = 1.65), as well proteins involved in the contactin-1 (CNTN1), toll-like receptor 5 (TLR5), and neurogenic locus notch homolog protein 1 (NOTCH1) signaling pathway relevant to skeletal muscle regeneration, myelination, and inflammation. Pathway analyses suggest midlife dysregulation of inflammation, metabolism, extracellular matrix, angiogenesis, and lysosomal autophagy among those at risk for late-life frailty. After further adjusting for midlife body mass index (BMI) – an established frailty risk factor – only CNTN1 (OR = 0.75) remained significantly associated with frailty. Post-hoc analyses demonstrated that the top 41 midlife frailty-associated proteins mediate 32% of the association between mid-life BMI and late-life frailty. Our findings provide new insights into frailty etiology earlier in the life course, enhancing the potential for prevention. [ABSTRACT FROM AUTHOR]

Published

2024

3. Notch Signaling Is Associated with Pulmonary Fibrosis in Patients with Pigeon Breeder's Lung by Regulating Oxidative Stress.

Author

Lian, Zhichuang, Kuerban, Remila, Niu, Zongxin, Aisaiti, Paruzha, Wu, Chao, Yang, Xiaohong, and Wang, Jincheng

Subjects

*DRUG instillation, *LABORATORY rats, *PULMONARY fibrosis, *ANIMAL experimentation, *NOTCH proteins

Abstract

This study explored the molecular mechanism underlying the association of Notch signaling and oxidative stress with the occurrence of pulmonary fibrosis in patients with pigeon breeder's lung (PBL). Rat models of fibrotic PBL were constructed with freeze‐dried protein powder, and the animals were divided into the control (intratracheal instillation of normal saline; n = 9), M (PBL model; intratracheal instillation of freeze‐dried protein powder; n = 9), and M + D (PBL+ the Notch inhibitor DAPT; n = 9) groups. Immunohistochemistry was employed to observe the protein levels of pathway factors and α‐SMA, and the levels of ROS, GSH‐PX, SOD, and MDA were observed using ELISA. To verify the results of the animal experiment, cytological models were constructed. The M group and the M + D group had significantly increased α‐SMA levels (P < 0.05). Although both groups had significantly higher key protein levels in the Notch channel, the M + D group had significantly lower levels relative to the M group (P < 0.05). Oxidative stress products were examined, and the levels of MDA and ROS were significantly increased, while those of GSH‐PX and SOD were significantly decreased in the M and M + D groups as compared to the control, but the M group and the M + D group significantly differed (P < 0.05). These findings were further validated by the cytological experiment. Notch signaling is associated with pulmonary fibrosis in PBL by regulating cellular oxidative stress, and inhibiting this pathway can slow down pulmonary fibrosis progression. [ABSTRACT FROM AUTHOR]

Published

2024

4. Molecular Mimicry between Toxoplasma gondii B-Cell Epitopes and Neurodevelopmental Proteins: An Immunoinformatic Approach.

Author

Meza-Sosa, Karla F., Valle-Garcia, David, González-Conchillos, Hugo, Blanco-Ayala, Tonali, Salazar, Alelí, Flores, Itamar, Gómez-Manzo, Saúl, González Esquivel, Dinora Fabiola, Pérez de la Cruz, Gonzalo, Pineda, Benjamín, and Pérez de la Cruz, Verónica

Subjects

*NOTCH proteins, *MOLECULAR mimicry, *LABORATORY rats, *HEAT shock proteins, *NEURAL development, *IMMUNOGLOBULIN M

Abstract

Epidemiological studies and meta-analyses have shown a strong association between high seroprevalence of Toxoplasma gondii (T. gondii) and schizophrenia. Schizophrenic patients showed higher levels of anti-Toxoplasma immunoglobulins M and G (IgM and IgG) when compared to healthy controls. Previously, in a rat model, we demonstrated that the progeny of mothers immunized with T. gondii lysates before gestation had behavioral and social impairments during adulthood. Therefore, we suggested that T. gondii infection can trigger autoreactivity by molecularly mimicking host brain proteins. Here, we aimed to identify the occurrence of antigenic mimicry between T. gondii epitopes and host brain proteins. Using a bioinformatic approach, we predicted T. gondii RH-88 B cell epitopes and compared them to human cell-surface proteins involved in brain development and differentiation (BrainS). Five different algorithms for B-cell-epitope prediction were used and compared, resulting in 8584 T. gondii epitopes. We then compared T. gondii predicted epitopes to BrainS proteins by local sequence alignments using BLASTP. T. gondii immunogenic epitopes significantly overlapped with 42 BrainS proteins. Among these overlapping proteins essential for brain development and differentiation, we identified HSP90 and NOTCH receptors as the proteins most likely to be targeted by the maternally generated pathogenic antibodies due to their topological overlap at the extracellular region of their sequence. This analysis highlights the relevance of pregestational clinical surveillance and screening for potential pathogenic anti-T. gondii antibodies. It also identifies potential targets for the design of vaccines that could prevent behavioral and cognitive impairments associated with pre-gestational T. gondii exposure. [ABSTRACT FROM AUTHOR]

Published

2024

5. The cellular Notch1 protein promotes KSHV reactivation in an Rta-dependent manner.

Author

DeCotiis-Mauro, Jennifer, Han, Sun M., Mello, Helena, Goyeneche, Corey, Marchesini-Tovar, Giuseppina, Lianhua Jin, Bellofatto, Vivian, and Lukac, David M.

Subjects

*CELLULAR signal transduction, *KAPOSI'S sarcoma-associated herpesvirus, *NOTCH signaling pathway, *NOTCH proteins, *VIRAL DNA, *NOTCH genes

Abstract

The cellular Notch signal transduction pathway is intimately associated with infections by Kaposi’s sarcoma-associated herpesvirus (KSHV) and other gamma-herpesviruses. RBP-Jk, the cellular DNA binding component of the canonical Notch pathway, is the key Notch downstream effector protein in virus-infected and uninfected animal cells. Reactivation of KSHV from latency requires the viral lytic switch protein, Rta, to form complexes with RBP-Jk on numerous sites within the viral DNA. Constitutive Notch activity is essential for KSHV pathophysiology in models of Kaposi’s sarcoma (KS) and Primary Effusion Lymphoma (PEL), and we demonstrate that Notch1 is also constitutively active in infected Vero cells. Although the KSHV genome contains >100 RBP-Jk DNA motifs, we show that none of the four isoforms of activated Notch can productively reactivate the virus from latency in a highly quantitative trans-complementing reporter virus system. Nevertheless, Notch contributed positively to reactivation because broad inhibition of Notch1-4 with gamma-secretase inhibitor (GSI) or expression of dominant negative mastermind-like1 (dnMAML1) coactivators severely reduced production of infectious KSHV from Vero cells. Reduction of KSHV production is associated with gene-specific reduction of viral transcription in both Vero and PEL cells. Specific inhibition of Notch1 by siRNA partially reduces the production of infectious KSHV, and NICD1 forms promoter-specific complexes with viral DNA during reactivation. We conclude that constitutive Notch activity is required for the robust production of infectious KSHV, and our results implicate activated Notch1 as a pro-viral member of a MAML1/RBP-Jk/DNA complex during viral reactivation. IMPORTANCE Kaposi's sarcoma-associated herpesvirus (KSHV) manipulates the host cell oncogenic Notch signaling pathway for viral reactivation from latency and cell pathogenesis. KSHV reactivation requires that the viral protein Rta functionally interacts with RBP-Jk, the DNA-binding component of the Notch pathway, and with promoter DNA to drive transcription of productive cycle genes. We show that the Notch pathway is constitutively active during KSHV reactivation and is essential for robust production of infectious virus progeny. Inhibiting Notch during reactivation reduces the expression of specific viral genes yet does not affect the growth of the host cells. Although Notch cannot reactivate KSHV alone, the requisite expression of Rta reveals a previously unappreciated role for Notch in reactivation. We propose that activated Notch cooperates with Rta in a promoter-specific manner that is partially programmed by Rta’s ability to redistribute RBP-Jk DNA binding to the virus during reactivation. [ABSTRACT FROM AUTHOR]

Published

2024

6. Mesenchymal stem cell-derived extracellular vesicles ameliorate renal interstitial fibrosis via the miR-13474/ADAM17 axis.

Author

Shi, Linru, Hu, Yuyan, Zeng, Houcheng, Shi, Hui, Xu, Wenrong, Sun, Yaoxiang, Chu, Hong, Ji, Cheng, and Qian, Hui

Subjects

*RENAL fibrosis, *NOTCH proteins, *EXTRACELLULAR vesicles, *KIDNEY diseases, *UMBILICAL cord, *NOTCH genes

Abstract

Renal interstitial fibrosis (RIF) is a prevalent consequence of chronic renal diseases, characterized by excessive extracellular matrix (ECM) deposition. A Disintegrin and Metalloprotease 17 (ADAM17), a transmembrane metalloproteinase, plays a central role in driving renal fibrosis progression by activating Notch 1 protein and the downstream TGF-β signaling pathway. Our study investigated potential therapeutic interventions for renal fibrosis, focusing on human umbilical cord mesenchymal stem cell-derived extracellular vesicles (hucMSC-EVs). We found that hucMSC-EVs inhibit ADAM17, thereby impeding renal fibrosis progression. Analysis of hucMSC-EVs miRNA profiles revealed significant enrichment of miR-13474, which effectively targeted and inhibited ADAM17 mRNA expression, subsequently suppressing Notch1 activation, TGF-β signaling, and collagen deposition. Overexpression of miR-13474 enhanced hucMSC-EVs' inhibitory effect on renal fibrosis, while its downregulation abolished this protective effect. Our findings highlight the efficacy of hucMSC-EVs overexpressing miR-13474 in mitigating renal fibrosis via ADAM17 targeting. These insights offer potential therapeutic strategies for managing renal fibrosis. [ABSTRACT FROM AUTHOR]

Published

2024

7. An adult patient with pulmonary arterial hypertension, a NOTCH3 mutation, and leflunomide exposure.

Author

Fenner, Elizabeth G. and Simpson, Catherine E.

Subjects

*BONE morphogenetic protein receptors, *PULMONARY arterial hypertension, *VASCULAR remodeling, *NOTCH proteins, PULMONARY artery diseases

Abstract

Pulmonary arterial hypertension (PAH) is a poorly understood disease of the small pulmonary arteries. Pulmonary vascular remodeling and progressively rising pulmonary vascular resistance are hallmarks of the disease that ultimately result in right heart failure. Several genetic mutations, most notably in bone morphogenetic protein receptor type 2, have a causal association with heritable forms of PAH. Mutations in neurogenic locus notch homolog protein 3 (NOTCH3) have been reported in adults and children with PAH, but whether NOTCH3 is causally associated with PAH is debated. With this case report, we describe the clinical characteristics, comorbidities, and exposure history of an adult patient with PAH and multiple sclerosis who was found to have a NOTCH3 missense mutation and exposure to leflunomide. [ABSTRACT FROM AUTHOR]

Published

2024

8. The effect of bisphenol A on the Notch (Notch2 and Jagged2) signaling pathway in the follicular development of the neonatal rat ovary.

Author

Özden Akkaya, Özlem, Yağci, Artay, Zik, Berrin, Kibria, A. S. M. Golam, Güler, Sabire, Çelik, Sefa, and Altunbaş, Korhan

Subjects

*NOTCH signaling pathway, *IMMUNOSTAINING, *NOTCH proteins, *BISPHENOL A, *ENDOCRINE disruptors, *NOTCH genes, *OVARIAN follicle

Abstract

The formation of primordial follicles determines the pool size of follicles in the ovary, and is crucial for female reproductivity. Oocyte nest breakdown, and the formation of primordial follicles, largely depend upon the communication between oocytes and the surrounding pregranulosa cells. The neurogenic locus notch homolog protein (Notch) signaling pathway is the key player for this cell-to-cell communication, and is responsible for primordial folliculogenesis. However, different endocrine disruptors, including bisphenol A (BPA; a plasticizer and a constituent of reusable plastic containers) may affect the Notch signaling pathway, and might induce ovary dysfunction via Notch signaling. Consequently, we investigated the possible influence of BPA treatment on the proportional distribution of the follicular stages, follicle numbers, levels of apoptosis, and on Notch2 and Jagged2 expressions in the ovary. BPA was administered at doses of either 50 µg/kg/day or 50 mg/kg/day, at different time intervals, during neonatal and fetal periods in vivo. After collecting the ovaries from the various experimental groups, follicles were counted, and frequency of apoptosis was determined by TUNEL assay. In addition, Notch2 and Jagged2 expressions were assessed by immunohistochemical staining and qPCR. In summary, BPA treatment affected the follicle numbers and apoptosis level, and Notch2 and Jagged2 expressions varied with follicular stage. It was also observed that these parameters were dose and time dependent with respect to BPA exposure. [ABSTRACT FROM AUTHOR]

Published

2024

9. Notch signaling regulates UNC5B to suppress endothelial proliferation, migration, junction activity, and retinal plexus branching.

Author

Raza, Qanber, Nadeem, Taliha, Youn, Seock-Won, Swaminathan, Bhairavi, Gupta, Ahana, Sargis, Timothy, Du, Jing, Cuervo, Henar, Eichmann, Anne, Ackerman, Susan L., Naiche, L. A., and Kitajewski, Jan

Subjects

*ENDOTHELIAL cells, *NOTCH genes, *NOTCH proteins, *GENE expression, *PHENOTYPIC plasticity, *SHEARING force, *SIGNALS & signaling

Abstract

Notch signaling guides vascular development and function by regulating diverse endothelial cell behaviors, including migration, proliferation, vascular density, endothelial junctions, and polarization in response to flow. Notch proteins form transcriptional activation complexes that regulate endothelial gene expression, but few of the downstream effectors that enable these phenotypic changes have been characterized in endothelial cells, limiting our understanding of vascular Notch activities. Using an unbiased screen of translated mRNA rapidly regulated by Notch signaling, we identified novel in vivo targets of Notch signaling in neonatal mouse brain endothelium, including UNC5B, a member of the netrin family of angiogenic-regulatory receptors. Endothelial Notch signaling rapidly upregulates UNC5B in multiple endothelial cell types. Loss or gain of UNC5B recapitulated specific Notch-regulated phenotypes. UNC5B expression inhibited endothelial migration and proliferation and was required for stabilization of endothelial junctions in response to shear stress. Loss of UNC5B partially or wholly blocked the ability of Notch activation to regulate these endothelial cell behaviors. In the developing mouse retina, endothelial-specific loss of UNC5B led to excessive vascularization, including increased vascular outgrowth, density, and branchpoint count. These data indicate that Notch signaling upregulates UNC5B as an effector protein to control specific endothelial cell behaviors and inhibit angiogenic growth. [ABSTRACT FROM AUTHOR]

Published

2024

10. SNP and Structural Study of the Notch Superfamily Provides Insights and Novel Pharmacological Targets against the CADASIL Syndrome and Neurodegenerative Diseases.

Author

Papageorgiou, Louis, Papa, Lefteria, Papakonstantinou, Eleni, Mataragka, Antonia, Dragoumani, Konstantina, Chaniotis, Dimitrios, Beloukas, Apostolos, Iliopoulos, Costas, Bongcam-Rudloff, Erik, Chrousos, George P., Kossida, Sofia, Eliopoulos, Elias, and Vlachakis, Dimitrios

Subjects

*NOTCH genes, *NEURODEGENERATION, *NOTCH signaling pathway, *CONGENITAL disorders, *NOTCH proteins, *ALZHEIMER'S disease

Abstract

The evolutionary conserved Notch signaling pathway functions as a mediator of direct cell–cell communication between neighboring cells during development. Notch plays a crucial role in various fundamental biological processes in a wide range of tissues. Accordingly, the aberrant signaling of this pathway underlies multiple genetic pathologies such as developmental syndromes, congenital disorders, neurodegenerative diseases, and cancer. Over the last two decades, significant data have shown that the Notch signaling pathway displays a significant function in the mature brains of vertebrates and invertebrates beyond neuronal development and specification during embryonic development. Neuronal connection, synaptic plasticity, learning, and memory appear to be regulated by this pathway. Specific mutations in human Notch family proteins have been linked to several neurodegenerative diseases including Alzheimer's disease, CADASIL, and ischemic injury. Neurodegenerative diseases are incurable disorders of the central nervous system that cause the progressive degeneration and/or death of brain nerve cells, affecting both mental function and movement (ataxia). There is currently a lot of study being conducted to better understand the molecular mechanisms by which Notch plays an essential role in the mature brain. In this study, an in silico analysis of polymorphisms and mutations in human Notch family members that lead to neurodegenerative diseases was performed in order to investigate the correlations among Notch family proteins and neurodegenerative diseases. Particular emphasis was placed on the study of mutations in the Notch3 protein and the structure analysis of the mutant Notch3 protein that leads to the manifestation of the CADASIL syndrome in order to spot possible conserved mutations and interpret the effect of these mutations in the Notch3 protein structure. Conserved mutations of cysteine residues may be candidate pharmacological targets for the potential therapy of CADASIL syndrome. [ABSTRACT FROM AUTHOR]

Published

2024

11. Astragalus Polysaccharide Promotes Neuronal Injury Repair via the Notch1/NFκB Signaling Axis in the Ventroposterior Thalamic Nucleus in Rats with Focal Cerebral Ischemia.

Author

Wenjuan Li, Huachun Miao, Zeyin Nie, Feng Wu, and Huaibin Li

Subjects

*CEREBRAL ischemia, *THALAMIC nuclei, *POLYSACCHARIDES, *ASTRAGALUS (Plants), *NOTCH proteins, *CHINESE medicine, *REPERFUSION injury

Abstract

Background: Ischemic stroke is the most common form of stroke and the second most common cause of death and incapacity worldwide. Its pathogenesis and treatment have been the focus of considerable research. In traditional Chinese medicine, the root of Mongolian astragalus has been important in the treatment of stroke since ancient times. Astragalus polysaccharide (APS) is a key active ingredient of astragalus and offers therapeutic potential for conditions affecting the neurological system, the heart, cancer, and other disorders. However, it is not yet known how APS works to protect against ischemic stroke. Methods: Rats were subjected to middle cerebral artery occlusion (MCAO) to imitate localized cerebral ischemia. Each of four experimental groups (normal, sham, MCAO, and MCAO+APS) contained 12 adult male Sprague-Dawley (SD) rats selected randomly from a total of 48 rats. Following successful establishment of the model, rats in the MCAO+APS group received intraperitoneal injection of APS (50 mg/kg) once daily for 14 days, whereas all other groups received no APS. The Bederson nerve function score and the forelimb placement test were used to detect motor and sensory function defects, while Nissl staining was used to investigate pathological defects in the ventroposterior thalamic nucleus (VPN). Immunohistochemical staining and Western blot were used to evaluate the expression of Neurogenic locus notch homolog protein 1 (Notch1), hairy and enhancer of split 1 (Hes1), phospho-nuclear factor-κB p65 (p-NFκB p65), and nuclear factor-κB p65 (NFκB p65) proteins in the VPN on the ischemic side of MCAO rats. Results: APS promoted the recovery of sensory and motor function, enhanced neuronal morphology, increased the number of neurons, and inhibited the expression of Notch1/NFκB signaling pathway proteins in the VPN of rats with cerebral ischemia. Conclusion: After cerebral ischemia, APS can alleviate symptoms of secondary damage to the VPN, which may be attributed to the suppression of the Notch1/NFκB pathway. [ABSTRACT FROM AUTHOR]

Published

2024

12. Efficient Escorting Strategy for Aggregation-Prone Notch EGF Repeats with Sparcl1.

Author

Kondo, Yuji, Li, Yuxin, and Okajima, Tetsuya

Subjects

*EPIDERMAL growth factor, *NOTCH proteins, *CHIMERIC proteins, *MONOCLONAL antibodies

Abstract

Epidermal growth factor (EGF) repeats are present in various proteins and form well-defined structures with three disulfide bonds. One representative protein is the Notch receptor. Each EGF repeat contains unique atypical O-linked glycans, such as O-linked N-acetylglucosamine (O-GlcNAc). To generate a monoclonal antibody against the O-GlcNAc moiety in mouse Notch1, we expressed the recombinant C-terminal His6-tagged Notch1 EGF14-15 protein in HEK293T cells to prepare the immunogen. Most of the proteins were not secreted and showed higher molecular weight ladders in the cell lysate, suggesting protein aggregation. To overcome this issue, we fused Sparcl1 as an extracellular escorting tag to the N-terminus of Notch1 EGF14-15. The fusion protein was efficiently secreted extracellularly without protein aggregates in the lysates. Following PreScission protease treatment, Notch1 EGF14-15 was efficiently released from the escorting tag. Notch1 EGF14-15 prepared using this method was indeed O-GlcNAcylated. The optimal length of the escorting tag was determined by generating deletion mutants to improve the extracellular secretion of EGF14-15. Hence, a large amount of EGF14-15 was successfully prepared from the culture supernatant of HEK293T cells, which were otherwise prone to aggregation. [ABSTRACT FROM AUTHOR]

Published

2024

13. The IRE1/Xbp1 axis restores ER and tissue homeostasis perturbed by excess Notch in Drosophila.

Author

Li, Yu, Liu, Dongyue, Wang, Haochuan, Zhang, Xuejing, Lu, Bingwei, and Li, Shuangxi

Subjects

*NOTCH genes, *NOTCH proteins, *CELL determination, *UNFOLDED protein response, *EPIDERMAL growth factor, *DROSOPHILA, *HOMEOSTASIS, *ENDOPLASMIC reticulum

Abstract

Notch signaling controls numerous key cellular processes including cell fate determination and cell proliferation. Its malfunction has been linked to many developmental abnormalities and human disorders. Overactivation of Notch signaling is shown to be oncogenic. Retention of excess Notch protein in the endoplasmic reticulum (ER) can lead to altered Notch signaling and cell fate, but the mechanism is not well understood. In this study, we show that V5-tagged or untagged exogenous Notch is retained in the ER when overexpressed in fly tissues. Furthermore, we show that Notch retention in the ER leads to robust ER enlargement and elicits a rough eye phenotype. Gain-of-function of unfolded protein response (UPR) factors IRE1 or spliced Xbp1 (Xbp1-s) alleviates Notch accumulation in the ER, restores ER morphology and ameliorates the rough eye phenotype. Our results uncover a pivotal role of the IRE1/Xbp1 axis in regulating the detrimental effect of ER-localized excess Notch protein during development and tissue homeostasis. Schematic representation of Notch protein distribution in the ER. When IRE1 activity is low and ER overloaded with excess Notch protein, the ER membrane is remodeled to form enlarged structures. On the other hand, high IRE1 activity would lead to the clearance of ER-localized excess Notch protein and maintenance of ER homeostasis. EGF repeats: epidermal growth factor (EGF) repeats, NRR: negative regulatory region, NICD: Notch intracellular domain. [Display omitted] • Excess Notch causes developmental defects in Drosophila. • Exogenous Notch proteins accumulate in the ER. • The level of excess Notch in the ER is modulated by the IRE1/Xbp1 axis. • Gain-of-function of IRE1 or Xbp1-s ameliorates the rough eye phenotype caused by excess Notch. [ABSTRACT FROM AUTHOR]

Published

2024

14. Involvement of NOTCH1-mediated Microglia Activation in Neuromodulation of Chronic Prostatitis-related Pain.

Author

HENG ZHANG, RUIFEN GU, JISHENG LUO, CHUANHUA ZHONG, and JINHONG PAN

Subjects

PROSTATITIS, NOTCH proteins, MICROGLIA, NEUROMODULATION, PAIN

Abstract

Background/Aim: This study aimed to investigate the role of NOTCH receptor 1 (NOTCH1)-mediated activation of microglia in the L5-S2 spinal dorsal horn in chronic prostatitis pain. Materials and Methods: Rats were divided into chronic prostatitis (CP) group and control group. Complete Freund's adjuvant was injected into the prostate, and prostate pathology and pain-related behavior were monitored to assess the successful establishment of the CPrelated pain model. The dorsal horn of the L5-S2 spinal cord was collected for the detection of ionized calcium-binding adapter molecule 1 (IBA-1) and NOTCH1 expression by quantitative real time polymerase chain reaction and the detection of tumor necrosis factor-a (TNF-a) and interleukin-1ß (IL-1ß) by enzyme-linked immunosorbent assay. Electrical excitability was assessed with whole-cell patch clamp. In addition, NOTCH1 receptor inhibitor or inhibitor of microglial cell activation was injected into the subarachnoid space, and the pro-inflammatory cytokines in the spinal cord were detected. Results: In the CP group, the expression of NOTCH1, IBA-1, TNF-a and IL-1ß began to increase at 4 days, peaked at 12 days, and began to decline at 24 days, and it was significantly higher than in the control group (p<0.01). Inhibition of microglia or NOTCH1 receptor markedly reduced the content of TNF-a and IL-1ß in the spinal cord (p<0.05). At 4, 12 and 24 days, the amplitude and frequency of neuronal action potential increased and the threshold decreased markedly as compared to the control group (p<0.05), and spontaneous action potential was noted. Conclusion: NOTCH1 mediates the activation of microglia in the L5-S2 spinal cord, leading to the secretion of inflammatory factors and enhanced electrical excitability of neurons, which is related to persistent and refractory chronic prostatitis-related pain. [ABSTRACT FROM AUTHOR]

Published

2024

15. Resveratrol prevents age‐related heart impairment through inhibiting the Notch/NF‐κB pathway.

Author

Wang, Le‐Feng, Li, Wen‐Juan, Zhang, Xian‐Yi, Zhang, Yi‐Chi, Chen, Guang‐Feng, Zhou, Xing‐Yu, Xv, Dong‐Mei, and Wu, Qiong

Subjects

*MEMBRANE potential, *SHORT-chain fatty acids, *RESVERATROL, *INTERLEUKIN-1 receptors, *NOTCH proteins, *GASTROINTESTINAL contents, *NOTCH genes, *REPERFUSION

Abstract

Resveratrol (RSV) is a natural polyphenol compound found in various plants that has been shown to have potential benefits for preventing aging and supporting cardiovascular health. However, the specific signal pathway by which RSV protects the aging heart is not yet well understood. This study aimed to explore the protective effects of RSV against age‐related heart injury and investigate the underlying mechanisms using a D‐galactose‐induced aging model. The results of the study indicated that RSV provided protection against age‐related heart impairment in mice. This was evidenced by the reduction of cardiac histopathological changes as well as the attenuation of apoptosis. RSV‐induced cardioprotection was linked to a significant increase in antioxidant activity and mitochondrial transmembrane potential, as well as a reduction in oxidative damage. Additionally, RSV inhibited the production of pro‐inflammatory cytokines such as interleukin‐1β (IL‐1β) and tumor necrosis factor‐α (TNF‐α). Furthermore, the expression of toll‐like receptor 4 (TLR4), nuclear factor kappa‐B p65 (NF‐κB p65), and notch 1 protein were inhibited by RSV, indicating that inhibiting the Notch/NF‐κB pathway played a critical role in RSV‐triggered heart protection in aging mice. Moreover, further data on intestinal function demonstrated that RSV significantly increased short‐chain fatty acids (SCFAs) in intestinal contents and reduced the pH value in the feces of aging mice. RSV alleviated aging‐induced cardiac dysfunction through the suppression of oxidative stress and inflammation via the Notch/NF‐κB pathway in heart tissue. Furthermore, this therapeutic effect was found to be associated with its protective roles in the intestine. [ABSTRACT FROM AUTHOR]

Published

2024

16. Effects of JAG-1 on the Proliferation and Migration of Gastric Ade- nocarcinoma Cells after TRAIP Knockout.

Author

Chongyang ZHU and Jiemin QI

Subjects

*NOTCH signaling pathway, *TUMOR necrosis factor receptors, *NOTCH proteins, *CELL migration

Abstract

[Objectives] To study the effects of JAG-1 on silencing TRAIP (tumor necrosis factor receptor associated factor interaction pro- tein) after regulating Notch signaling pathway on the proliferation and migration of gastric adenocarcinoma cells. [Methods] Gastric adenocar- cinoma cells were categorized into si-NC+ DMSO (control + DMSO), si-TRAIP#1 + DMSO (transfected with TRAIP + DMSO), si-NC+ JAG-1 (control + JAG-1), and si-TRAIP#1 + JAG-1 (transfected with TRAIP + JAG-1), and the proliferation of the cells was detected by CCK-8 as- say and plate colony formation assay. Transwell assay was used to detect cell migration, and Western blot was adopted to detect the expression of proliferation-associated protein CyclinD1, migration-associated protein MMP2, and key proteins of Notch signaling pathway Notchl, Hesl and Jaggedi. [Results] Compared with siTRAIP#1 + DMSO, the gastric adenocarcinoma cells in si-TRAIP#1 + JAG-1 group showed increased proliferation and migration (P<0.05), and there was a significant increase in the expression of CyclinD1, MMP2, Notchl, Hesl, and Jag- ged1 (P<0.05). [Conclusions] After TRAIP knockdown, JAG-1 increased not only the proliferation and migration ability of gastric adeno- carcinoma cells, but also the expression of key proteins of Notch signaling pathway Notch1, Hesl, and Jagged1. [ABSTRACT FROM AUTHOR]

Published

2023

17. Editorial: Peptidases as a therapeutic target in anti-cancer management.

Author

Mitrović, Ana, Burden, Roberta E., Softič, Adaleta, and Kavčič, Nežka

Subjects

PEPTIDASE, DEUBIQUITINATING enzymes, DRUG target, NOTCH proteins, DRUG resistance in cancer cells, PROTEOLYTIC enzymes

Abstract

This document is an editorial published in Frontiers in Pharmacology titled "Peptidases as a therapeutic target in anti-cancer management." The editorial discusses the potential of peptidases, a family of proteolytic enzymes, as targets for cancer treatment. Peptidases play important roles in various biological processes and their dysregulation is associated with cancer progression. The editorial highlights different peptidase families and their mechanisms of action, as well as recent studies on the development of peptidase inhibitors and their potential to improve cancer treatment. The authors emphasize the need for further research in this field to better understand the role of peptidases in cancer progression and develop new therapeutic approaches. [Extracted from the article]

Published

2024

18. A phenome-wide approach to identify causal risk factors for deep vein thrombosis.

Author

Constantinescu, Andrei-Emil, Bull, Caroline J., Goudswaard, Lucy J., Zheng, Jie, Elsworth, Benjamin, Timpson, Nicholas J., Moore, Samantha F., Hers, Ingeborg, and Vincent, Emma E.

Subjects

*VENOUS thrombosis, *THROMBOSIS, *VARICOSE veins, *PLASMINOGEN activator inhibitors, *NOTCH proteins, *STATISTICAL association

Abstract

Deep vein thrombosis (DVT) is the formation of a blood clot in a deep vein. DVT can lead to a venous thromboembolism (VTE), the combined term for DVT and pulmonary embolism, a leading cause of death and disability worldwide. Despite the prevalence and associated morbidity of DVT, the underlying causes are not well understood. Our aim was to leverage publicly available genetic summary association statistics to identify causal risk factors for DVT. We conducted a Mendelian randomization phenome-wide association study (MR-PheWAS) using genetic summary association statistics for 973 exposures and DVT (6,767 cases and 330,392 controls in UK Biobank). There was evidence for a causal effect of 57 exposures on DVT risk, including previously reported risk factors (e.g. body mass index—BMI and height) and novel risk factors (e.g. hyperthyroidism and varicose veins). As the majority of identified risk factors were adiposity-related, we explored the molecular link with DVT by undertaking a two-sample MR mediation analysis of BMI-associated circulating proteins on DVT risk. Our results indicate that circulating neurogenic locus notch homolog protein 1 (NOTCH1), inhibin beta C chain (INHBC) and plasminogen activator inhibitor 1 (PAI-1) influence DVT risk, with PAI-1 mediating the BMI-DVT relationship. Using a phenome-wide approach, we provide putative causal evidence that hyperthyroidism, varicose veins and BMI enhance the risk of DVT. Furthermore, the circulating protein PAI-1 has a causal role in DVT aetiology and is involved in mediating the BMI-DVT relationship. [ABSTRACT FROM AUTHOR]

Published

2023

19. Circular RNA hsa_circ_0051246 acts as a microRNA-375 sponge to promote the progression of gastric cancer stem cells via YAP1.

Author

Minghui Deng, Yefeng Xu, Yongwei Yao, Yiqing Wang, Qingying Yan, Miao Cheng, and YunXia Liu

Subjects

CIRCULAR RNA, CANCER stem cells, YAP signaling proteins, STOMACH cancer, NOTCH proteins, CADHERINS, FLUORESCENCE in situ hybridization

Abstract

Background. Gastric cancer (GC) stem cells play an important role in GC progression. Circular RNAs (circRNAs) act as microRNA (miRNA) sponges and inhibit the biological function of miRNAs in GC cytoplasm. MiRNAs also participate in GC progress. circ_0051246 was shown to be associated with miR-375 after analyzing GC microarray data GSE78091 and GSE83521. The oncoprotein Yes-associated protein 1 (YAP1) is targeted by miR-375 and can be inactivated via the Hippo tumor suppressor pathway. Due to insufficient research on circ_0051246, this study aimed to investigate its relationship with miR-375 and YAP1 in cancer stem cells (CSCs). Methods. SGC-7901 CSCs were used to establish knockdown/overexpression models of circ_0051246, miR-375, and YAP1. Malignant phenotypes of CSCs were assessed using Cell Counting Kit 8, colony/sphere formation, 5-Ethynyl-2'-deoxyuridine assay, flow cytometry, Transwell, and wound healing assays. To detect the interactions between circ_0051246, miR-375, and YAP1 in CSCs, a dual-luciferase reporter assay and fluorescence in situ hybridization were performed. In addition, 24 BALB/c nude mice were used to establish orthotopic xenograft tumor models. Four groups of mice were injected with CSCs (1 × 106 cells/100 μL) with circ_0051246 knockdown, miR-375 overexpression, or their respective control cells, and tumor progression and gene expression were observed by hematoxylin-eosin staining, immunohistochemistry. Western blot and quantitative real-time PCR were utilized to examine protein and gene expression, respectively. Results. Circ_0051246 silencing reduced viability, promoted apoptosis, and inhibited proliferation, migration and invasion of CSCs. The functional effects of miR-375 mimics were comparable to those of circ_0051246 knockdown; however, the opposite was observed after miR-375 inhibitors treatment of CSCs. Furthermore, circ_0051246-overexpression antagonized the miR-375 mimics' effects on CSCs. Additionally, YAP1 overexpression promoted CSC features, such as self-renewal, migration, and invasion, inhibited apoptosis and E-cadherin levels, and upregulated the expression of N-cadherin, vimentin, YAP1, neurogenic locus notch homolog protein 1, and jagged canonical notch ligand 1. Conversely, YAP1-silenced produced the opposite effect. Moreover, miR-375 treatment antagonized the malignant effects of YAP1 overexpression in CSCs. Importantly, circ_0051246 knockdown and miR-375 activation suppressed CSC tumorigenicity in vivo. Conclusion. This study highlights the promotion of circ_0051246-miR-375-YAP1 axis activation in GC progression and provides a scientific basis for research on the molecular mechanism of CSCs. [ABSTRACT FROM AUTHOR]

Published

2023

20. Emodin disrupts the Notch1/Nrf2/GPX4 antioxidant system and promotes renal cell ferroptosis.

Author

Xing, Miao, Ma, Xiaoyu, Wang, Xi, Wang, Haoze, Xie, Minjuan, Zhang, Ziwen, and Zhou, Jie

Subjects

EMODIN, GLUTATHIONE peroxidase, POISONS, NOTCH proteins, NEPHROTOXICOLOGY, BLOOD urea nitrogen, REACTIVE oxygen species

Abstract

Emodin has been demonstrated to possess multiple pharmacological activities. However, emodin has also been reported to induce nephrotoxicity at high doses and with long‐term use, and the underlying mechanism has not been fully disclosed. The current study aimed to investigate the roles of oxidative stress and ferroptosis in emodin‐induced kidney toxicity. Mice were intraperitoneally treated with emodin, and NRK‐52E cells were exposed to emodin in the presence or absence of treatment with Jagged1, SC79, or t‐BHQ. Emodin significantly upregulated the levels of blood urea nitrogen, serum creatinine, malondialdehyde, and Fe2+, reduced the levels of superoxide dismutase and glutathione, and induced pathological changes in the kidneys in vivo. Moreover, the viability of NRK‐52E cells treated with emodin was reduced, and emodin induced iron accumulation, excessive reactive oxygen species production, and lipid peroxidation and depolarized the mitochondrial membrane potential (ΔΨm). In addition, emodin treatment downregulated the activity of neurogenic locus notch homolog protein 1 (Notch1), reduced the nuclear translocation of nuclear factor erythroid‐2 related factor 2 (Nrf2), and decreased glutathione peroxidase 4 protein levels. However, Notch1 activation by Jagged1 pretreatment, Akt activation by SC79 pretreatment, or Nrf2 activation by t‐BHQ pretreatment attenuated the toxic effects of emodin in NRK‐52E cells. Taken together, these results revealed that emodin‐induced ferroptosis triggered kidney toxicity through inhibition of the Notch1/Nrf2/glutathione peroxidase 4 axis. Emodin has potential toxicity on kidney. The toxicity effects of emodin are linked to oxidative stress and ferroptosis, which are mediated by the Notch1/Nrf2/GPX4 pathway. Notch1 and Nrf2 may be nephroprotective targets for treating emodin‐induced nephrotoxicity. [ABSTRACT FROM AUTHOR]

Published

2023

21. Tspan5 promotes the EMT process to regulate the syncytialization of trophoblast cells by activating Notch signalling.

Author

Tang, Hai-Yu, Lin, Mei, Liang, Yong-Qian, Wang, Jin-Hua, Yi, Hong-Gan, and Yang, Man

Subjects

TROPHOBLAST, CELL fusion, NOTCH proteins, ENZYME-linked immunosorbent assay, EMBRYOLOGY

Abstract

Summary: Placental trophoblastic cells play important roles in placental development and fetal health. However, the mechanism of trophoblastic cell fusion is still not entirely clear. The level of Tspan5 in the embryo culture medium was detected using enzyme-linked immunosorbent assay (ELISA). Fusion of BeWo cells was observed by immunofluorescence. Cell fusion-related factors and EMT-related factors were identified by qRT-PCR and western blotting. Notch protein repressor DAPT was used to verify the role of Tspan5 in BeWo cells. The expression of Tspan5 was significantly increased in embryo culture medium. The fusion of BeWo cells was observed after treatment with forskolin (FSK). Cell fusion-related factors (i.e. β-hCG and syncytin 1/2) and Tspan5 were significantly increased after FSK treatment. In addition, FSK treatment promoted EMT-related protein expression in BeWo cells. Knockdown of Tspan5 inhibited cell fusion and EMT-related protein levels. Notch-1 and Jagged-1 protein levels were significantly upregulated, and the EMT process was activated by overexpression of Tspan5 in FSK-treated BeWo cells. Interestingly, blocking the Notch pathway by the repressor DAPT had the opposite results. These results indicated that Tspan5 could promote the EMT process by activating the Notch pathway, thereby causing cell fusion. These findings contribute to a better understanding of trophoblast cell syncytialization and embryonic development. Tspan5 may be used as a therapeutic target for normal placental development. [ABSTRACT FROM AUTHOR]

Published

2023

22. New mutant alleles for Spargel/dPGC-1 highlights the function of Spargel RRM domain in oogenesis and expands the role of Spargel in embryogenesis and intracellular transport.

Author

Roy, Swagota D., Nagarajan, Sabarish, Jalal, Md. Shah, Basar, Md. Abul, and Duttaroy, Atanu

Subjects

*NOTCH proteins, *OOGENESIS, *EMBRYOLOGY, *ALLELES, *CARRIER proteins, *NOTCH genes, *NUCLEAR receptors (Biochemistry)

Abstract

Energy metabolism in vertebrates is controlled by three members of the PGC-1 (PPAR γ-coactivator 1) family, transcriptional coactivators that shape responses to physiological stimuli by interacting with the nuclear receptors and other transcription factors. Multiple evidence now supports that Spargel protein found in insects and ascidians is the ancestral form of vertebrate PGC-1's. Here, we undertook functional analysis of srl gene in Drosophila, asking about the requirement of Spargel per se during embryogenesis and its RNA binding domains. CRISPR- engineered srl gene deletion turned out to be an amorphic allele that is late embryonic/early larval lethal and Spargel protein missing its RNA binding domain (SrlΔRRM) negatively affects female fertility. Overexpression of wild-type Spargel in transgenic flies expedited the growth of egg chambers. On the other hand, oogenesis is blocked in a dominant-negative fashion in the presence of excess Spargel lacking its RRM domains. Finally, we observed aggregation of Notch proteins in egg chambers of srl mutant flies, suggesting that Spargel is involved in intracellular transport of Notch proteins. Taken together, we claim that these new mutant alleles of spargel are emerging powerful tools for revealing new biological functions for Spargel, an essential transcription coactivator in both Drosophila and mammals. [ABSTRACT FROM AUTHOR]

Published

2023

23. Novel structured ADAM17 small-molecule inhibitor represses ADAM17/Notch pathway activation and the NSCLC cells' resistance to anti-tumour drugs.

Author

Meng Chi, Yamin Jie, Ying Li, Duo Wang, Man Li, Dan Li, Mingyan E, Yongwu Li, Na Liu, Anxin Gu, and Guanghua Rong

Subjects

DRUG resistance in cancer cells, NOTCH genes, DRUG resistance, NON-small-cell lung carcinoma, NOTCH proteins, POLYMERASE chain reaction

Abstract

Background and aims: The outcomes of current treatment for non-small cell lung cancer (NSCLC) are unsatisfactory and development of new and more efficacious therapeutic strategies are required. The Notch pathway, which is necessary for cell survival to avert apoptosis, induces the resistance of cancer cells to antitumour drugs. Notch pathway activation is controlled by the cleavage of Notch proteins/receptors mediated by A disintegrin and metalloproteinase 17 (ADAM17); therefore, ADAM17 is a reliable intervention target for anti-tumour therapy to overcome the drug resistance of cancer cells. This work aims to develop and elucidate the activation of Compound 2b, a novel-structured small-molecule inhibitor of ADAM17, which was designed and developed and its therapeutic efficacy in NSCLC was assessed via multi-assays. Methods and results: A lead compound for a potential inhibitor of ADAM17 was explored via pharmacophore modelling, molecular docking, and biochemical screening. It was augmented by substituting two important chemical groups [R1 and R2 of the quinoxaline-2,3-diamine (its chemical skeleton)]; subsequently, serial homologs of the lead compound were used to obtain anoptimized compound (2b) with high inhibitory activity compared with leading compound against ADAM17 to inhibit the cleavage of Notch proteins and the accumulation of the Notch intracellular domain in the nuclei of NSCLC cells. The inhibitory activity of compound 2b was demonstrated by quantitative polymerase chain reaction and Western blotting. The specificity of compound 2b on ADAM17 was confirmed via point-mutation. Compound 2b enhanced the activation of antitumor drugs on NSCLC cells, in cell lines and nude mice models, by targeting the ADAM17/Notch pathway. [ABSTRACT FROM AUTHOR]

Published

2023

24. CD109 Promotes Drug Resistance in A2780 Ovarian Cancer Cells by Regulating the STAT3-NOTCH1 Signaling Axis.

Author

Kim, Jun Se, Shin, Min Joo, Lee, Seo Yul, Kim, Dae Kyoung, Choi, Kyung-Un, Suh, Dong-Soo, Kim, Dayea, and Kim, Jae Ho

Subjects

*MEMBRANE glycoproteins, *DRUG resistance, *NOTCH genes, *NOTCH proteins, *OVARIAN cancer, *PACLITAXEL, *OVARIAN epithelial cancer, *ATP-binding cassette transporters

Abstract

Epithelial ovarian cancer (EOC) is the most lethal gynecological malignancy owing to relapse caused by resistance to chemotherapy. We previously reported that cluster of differentiation 109 (CD109) expression is positively correlated with poor prognosis and chemoresistance in patients with EOC. To further explore the role of CD109 in EOC, we explored the signaling mechanism of CD109-induced drug resistance. We found that CD109 expression was upregulated in doxorubicin-resistant EOC cells (A2780-R) compared with that in their parental cells. In EOC cells (A2780 and A2780-R), the expression level of CD109 was positively correlated with the expression level of ATP-binding cassette (ABC) transporters, such as ABCB1 and ABCG2, and paclitaxel (PTX) resistance. Using a xenograft mouse model, it was confirmed that PTX administration in xenografts of CD109-silenced A2780-R cells significantly attenuated in vivo tumor growth. The treatment of CD109-overexpressed A2780 cells with cryptotanshinone (CPT), a signal transducer and activator of transcription 3 (STAT3) inhibitor, inhibited the CD109 overexpression-induced activation of STAT3 and neurogenic locus notch homolog protein 1 (NOTCH1), suggesting a STAT3-NOTCH1 signaling axis. The combined treatment of CD109-overexpressed A2780 cells with CPT and N-[N-(3,5-difluorophenacetyl)-l-alanyl]-S-phenylglycine t-butyl ester (DAPT), a NOTCH inhibitor, markedly abrogated PTX resistance. These results suggest that CD109 plays a key role in the acquisition of drug resistance by activating the STAT3-NOTCH1 signaling axis in patients with EOC. [ABSTRACT FROM AUTHOR]

Published

2023

25. NOTCH Signaling in Mantle Cell Lymphoma: Biological and Clinical Implications.

Author

Deshotels, Leigh, Safa, Firas M., and Saba, Nakhle S.

Subjects

*MANTLE cell lymphoma, *B cell differentiation, *NOTCH genes, *CELL communication, *NOTCH proteins, *CELL migration

Abstract

Despite major progress in mantle cell lymphoma (MCL) therapeutics, MCL remains a deadly disease with a median survival not exceeding four years. No single driver genetic lesion has been described to solely give rise to MCL. The hallmark translocation t(11;14)(q13;q32) requires additional genetic alterations for the malignant transformation. A short list of recurrently mutated genes including ATM, CCND1, UBR5, TP53, BIRC3, NOTCH1, NOTCH2, and TRAF2 recently emerged as contributors to the pathogenesis of MCL. Notably, NOTCH1 and NOTCH2 were found to be mutated in multiple B cell lymphomas, including 5–10% of MCL, with most of these mutations occurring within the PEST domain of the protein. The NOTCH genes play a critical role in the early and late phases of normal B cell differentiation. In MCL, mutations in the PEST domain stabilize NOTCH proteins, rendering them resistant to degradation, which subsequently results in the upregulation of genes involved in angiogenesis, cell cycle progression, and cell migration and adhesion. At the clinical level, mutated NOTCH genes are associated with aggressive features in MCL, such as the blastoid and pleomorphic variants, a shorter response to treatment, and inferior survival. In this article, we explore in detail the role of NOTCH signaling in MCL biology and the ongoing efforts toward targeted therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published

2023

26. Role of RNA Splicing Mutations in Diffuse Large B Cell Lymphoma.

Author

Berta, Dereje, Girma, Mekonnen, Melku, Mulugeta, Adane, Tiruneh, Birke, Bisrat, and Yalew, Aregawi

Subjects

B cell lymphoma, RNA splicing, DIFFUSE large B-cell lymphomas, ALTERNATIVE RNA splicing, GENETIC engineering, NOTCH proteins

Abstract

Ribonucleic acid splicing is a crucial process to create a mature mRNA molecule by removing introns and ligating exons. This is a highly regulated process, but any alteration in splicing factors, splicing sites, or auxiliary components affects the final products of the gene. In diffuse large B-cell lymphoma, splicing mutations such as mutant splice sites, aberrant alternative splicing, exon skipping, and intron retention are detected. The alteration affects tumor suppression, DNA repair, cell cycle, cell differentiation, cell proliferation, and apoptosis. As a result, malignant transformation, cancer progression, and metastasis occurred in B cells at the germinal center. B-cell lymphoma 7 protein family member A (BCL7A), cluster of differentiation 79B (CD79B), myeloid differentiation primary response gene 88 (MYD88), tumor protein P53 (TP53), signal transducer and activator of transcription (STAT), serum- and glucose-regulated kinase 1 (SGK1), Pou class 2 associating factor 1 (POU2AF1), and neurogenic locus notch homolog protein 1 (NOTCH) are the most common genes affected by splicing mutations in diffuse large B cell lymphoma. [ABSTRACT FROM AUTHOR]

Published

2023

27. PRMT7通过调控Notch信号转导通路抑制 膀胱癌细胞增殖和迁移.

Author

王雪梅, 程 玉, and 齐洁敏

Subjects

*NOTCH signaling pathway, *NOTCH proteins, *RNA interference, *PROTEIN arginine methyltransferases, *GENE expression, *BLADDER cancer, *METHYLTRANSFERASES

Abstract

Background and purpose: Bladder cancer is one of the common tumor of the urinary system. The protein arginine methyltransferase 7 (PRMT7) has been reported in gastrointestinal tumors, but its biological role and mechanism in bladder cancer are still unknown. In this study, the effect of PRMT7 on the proliferation and migration of human bladder cancer cells and its possible mechanism were investigated. Methods: Human bladder cancer cell lines 5637, T24, RT112, UM-UC-3 and ureteral epithelial immortalized cells SV-HUC-1 were cultured in vitro, and the expression of PRMT7 was detected by Western blot. The expression of PRMT7 gene was silenced by RNA interference, and the negative control group (si-NC) and experimental group (siPRMT7#1 and siPRMT7#2) were established. PRMT7 gene were overexpressed by plasmid transfection, and the negative control group (p-PCMV3) and experimental group (p-PRMT7) were established. The transfection efficiency of PRMT7 was verified by real-time fluorescence quantitative polymerase chain reaction (RTFQ-PCR) and Western blot, cell proliferation was detected by cell counting kit-8 (CCK-8) assay and colony formation assay, and cell migration was detected by Transwell assay. Western blot was used to detect the expressions of proliferation and migration related target proteins including Cyclin D1, CDK4 and MMP9, as well as the key proteins Notch1, HEY1 and Hes1 in Notch signaling pathway. Notch signaling specific inhibitors γ-secretase inhibitor DAPT was added to siPRMT7#2 transfected cells to further verify PRMT7 expression in bladder cancer. Results: Western blot results showed that PRMT7 expression was low in bladder cancer cells (P＜0.05). After silencing PTMT7 in 5637 cells, cell proliferation and migration were significantly enhanced (P＜0.05), and the expressions of proliferation and migration related target proteins including Cyclin D1, CDK4 and MMP9, and the key proteins of Notch signaling pathway Notch1, HEY1 and Hes1 were significantly increased (P＜0.05). The overexpression of PRMT7 in T24 cells showed an opposite trend. DAPT significantly reversed the expression of PRMT7 in bladder cancer cells. Conclusion: PRMT7 inhibits the proliferation and migration of bladder cancer cells, and its mechanism is related to Notch signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2023

28. MYCN Amplification Is Associated with Reduced Expression of Genes Encoding γ-Secretase Complex and NOTCH Signaling Components in Neuroblastoma.

Author

Agarwal, Prasoon, Glowacka, Aleksandra, Mahmoud, Loay, Bazzar, Wesam, Larsson, Lars-Gunnar, and Alzrigat, Mohammad

Subjects

*NOTCH genes, *GENE expression, *NOTCH signaling pathway, *NEUROBLASTOMA, *NOTCH proteins, *GENE silencing

Abstract

Amplification of the MYCN oncogene is found in ~20% of neuroblastoma (NB) cases and correlates with high-risk disease and poor prognosis. Despite the plethora of studies describing the role of MYCN in NB, the exact molecular mechanisms underlying MYCN's contribution to high-risk disease are not completely understood. Herein, we implemented an integrative approach combining publicly available RNA-Seq and MYCN ChIP-Seq datasets derived from human NB cell lines to define biological processes directly regulated by MYCN in NB. Our approach revealed that MYCN-amplified NB cell lines, when compared to non-MYCN-amplified cell lines, are characterized by reduced expression of genes involved in NOTCH receptor processing, axoneme assembly, and membrane protein proteolysis. More specifically, we found genes encoding members of the γ-secretase complex, which is known for its ability to liberate several intracellular signaling molecules from membrane-bound proteins such as NOTCH receptors, to be down-regulated in MYCN-amplified NB cell lines. Analysis of MYCN ChIP-Seq data revealed an enrichment of MYCN binding at the transcription start sites of genes encoding γ-secretase complex subunits. Notably, using publicly available gene expression data from NB primary tumors, we revealed that the expression of γ-secretase subunits encoding genes and other components of the NOTCH signaling pathway was also reduced in MYCN-amplified tumors and correlated with worse overall survival in NB patients. Genetic or pharmacological depletion of MYCN in NB cell lines induced the expression of γ-secretase genes and NOTCH-target genes. Chemical inhibition of γ-secretase activity dampened the expression of NOTCH-target genes upon MYCN depletion in NB cells. In conclusion, this study defines a set of MYCN-regulated pathways that are specific to MYCN-amplified NB tumors, and it suggests a novel role for MYCN in the suppression of genes of the γ-secretase complex, with an impact on the NOTCH-target gene expression in MYCN-amplified NB. [ABSTRACT FROM AUTHOR]

Published

2023

29. The Notch pathway regulates autophagy after hypoxic–ischemic injury and affects synaptic plasticity.

Author

Li, Kexin, Lu, Meng, Cui, Mengxu, Wang, Xiaoming, and Zheng, Yang

Subjects

*NEUROPLASTICITY, *SYNAPTOPHYSIN, *POSTSYNAPTIC density protein, *NOTCH proteins, *AUTOPHAGY, *NEURAL circuitry

Abstract

Following neonatal hypoxic–ischemia (HI) injury, it is crucial factor to reconstruct neural circuit and maintain neural network homeostasis for neurological recovery. A dynamic balance between the synthesis and degradation of synaptic protein is required for maintaining synaptic plasticity. Protein degradation is facilitated by autophagy. This study aimed to investigate the regulation of synaptic structural plasticity by the Notch pathway, by assessing changes in Notch pathway activation and their effects on synaptic proteins and autophagy after HI injury. The study involved 48 male newborn Yorkshire piglets, each weighing 1.0–1.5 kg and 3 days old. They were randomly assigned to two groups: the HI group and the Notch pathway inhibitor + HI group (n = 24 per group). Each group was further divided into six subgroups according to HI duration (n = 4 per group): a control subgroup, and 0–6, 6–12, 12–24, 24–48, and 48–72 h subgroups. The expression of Notch pathway-related proteins, including Notch1, Hes1, and Notch intracellular domains, increased following HI injury. The expression of autophagy proteins increased at 0–6 h and 6–12 h post-HI. The expression of synaptic proteins, such as postsynaptic density protein 95 (PSD95) and synaptophysin, increased 6–12 h and 12–24 h after HI, respectively. Notably, the increased expression of these proteins was reversed by a Notch pathway inhibitor. Transmission electron microscopy revealed the presence of autophagosome structures in synapses. These findings shed light on the underlying mechanisms of neurological recovery after HI injury and may provide insights into potential therapeutic targets for promoting neural circuit reconstruction and maintaining neural network homeostasis. [ABSTRACT FROM AUTHOR]

Published

2023

30. Regulation of Hepatocytes in G0 and G1 Phases by NOTCH3 mRNA, miR-369-3p, and rno-Rmdn2_0006 during the Initial Stage of Rat Liver Regeneration.

Author

Zang, Xiayan, Wang, Zihui, Li, Yafei, Gao, Han, Guo, Jianlin, Jin, Wei, Chang, Cuifang, Lin, Juntang, Zhu, Kuicheng, and Xu, Cunshuan

Subjects

*LIVER regeneration, *GENE expression, *NOTCH proteins, *MESSENGER RNA, *LIVER cells, *RATS, *STAT proteins

Abstract

The key event of liver regeneration initiation (LRI) is the switch of hepatocytes from the G0 phase to the G1 phase. This study aimed to use the data from large-scale quantitatively detecting and analyzing (LQDA) to reveal the regulation of hepatocytes in the G0 or G1 phase by competing endogenous RNAs (ceRNAs) during LRI. The hepatocytes of the rat liver right lobe were isolated 0, 6, and 24 h after partial hepatectomy. Their ceRNA expression level was measured using LQDA, and the correlation among their expression, interaction, and role was revealed by ceRNA comprehensive analysis. The expression of neurogenic loci notch homologous protein 3 (NOTCH3) mRNA was upregulated in 0 h, but the expression of miR-369-3p and rno-Rmdn2_0006 of hepatocytes did not change significantly. Meanwhile, the expression of the G0 phase-related gene CDKN1c was promoted by NOTCH3 upregulation, and the expression of the G1 phase-related gene PSEN2 was inhibited by NOTCH3 downregulation. On the contrary, the expression of NOTCH3 mRNA and rno-Rmdn2_0006 was upregulated at 6 h, but the expression of miR-136-3p was downregulated. The expression of the G1 phase-related genes CHUK, DDX24, HES1, NET1 , and STAT3 was promoted by NOTCH3 upregulation, and the expression of the G0 phase-related gene CDKN1a was inhibited by NOTCH3 downregulation. These results suggested that the ceRNAs and the NOTCH3-regulated G0 phase- and G1 phase-related genes showed a correlation in expression, interaction, and role. They together regulated the hepatocytes in the G0 phase at 0 h and in the G1 phase at 6 h. These findings might help understand the mechanism by which ceRNA together regulated the hepatocytes in the G0 or G1 phase. [ABSTRACT FROM AUTHOR]

Published

2023

31. Jagged/Notch proteins promote endothelial‐mesenchymal transition‐mediated pulmonary arterial hypertension via upregulation of the expression of GATAs.

Author

Lin, Kun‐Chen, Yeh, Jui‐Ning, Shao, Pei‐Lin, Chiang, John Y., Sung, Pei‐Hsun, Huang, Chi‐Ruei, Chen, Yi‐Ling, Yip, Hon‐Kan, and Guo, Jun

Subjects

PULMONARY arterial hypertension, NOTCH proteins, FIBRONECTINS, PROTEIN expression, SUBCUTANEOUS injections, OXYGEN saturation, MONOCARBOXYLATE transporters, BONE morphogenetic protein receptors

Abstract

This study tested the hypothesis that Jagged2/Notches promoted the endothelial‐mesenchymal transition (endMT)‐mediated pulmonary arterial hypertension (PAH) (i.e. induction by monocrotaline [MCT]/63 mg/kg/subcutaneous injection) through increasing the expression of GATA‐binding factors which were inhibited by propylthiouracil (PTU) (i.e. 0.1% in water for daily drinking since Day 5 after PAH induction) in rodent. As compared with the control (i.e. HUVECs), the protein expressions of GATAs (3/4/6) and endMT markers (Snail/Zeb1/N‐cadherin/vimentin/fibronectin/α‐SMA/p‐Smad2) were significantly reduced, whereas the endothelial‐phenotype markers (CD31/E‐cadherin) were significantly increased in silenced JAG2 gene or in silenced GATA3 gene of HUVECs (all p < 0.001). As compared with the control, the protein expressions of intercellular signallings (GATAs [3/4/6], Jagged1/2, notch1/2 and Snail/Zeb1/N‐cadherin/vimentin/fibronectin/α‐SMA/p‐Smad2) were significantly upregulated in TGF‐ß/monocrotaline‐treated HUVECs that were significantly reversed by PTU treatment (all p < 0.001). By Day 42, the results of animal study demonstrated that the right‐ventricular systolic‐blood‐pressure (RVSBP), RV weight (RVW) and lung injury/fibrotic scores were significantly increased in MCT group than sham‐control (SC) that were reversed in MCT + PTU groups, whereas arterial oxygen saturation (%) and vasorelaxation/nitric oxide production of PA exhibited an opposite pattern of RVW among the groups (all p < 0.0001). The protein expressions of hypertrophic (ß‐MHC)/pressure‐overload (BNP)/oxidative‐stress (NOX‐1/NOX‐2) biomarkers in RV and the protein expressions of intercellular signalling (GATAs3/4/6, Jagged1/2, notch1/2) and endMT markers (Snail/Zeb1/N‐cadherin/vimentin/fibronectin/TGF‐ß/α‐SMA/p‐Smad2) in lung parenchyma displayed an identical pattern of RVW among the groups (all p < 0.0001). Jagged‐Notch‐GATAs signalling, endMT markers and RVSBP that were increased in PAH were suppressed by PTU. [ABSTRACT FROM AUTHOR]

Published

2023

32. The effects of encapsulation on NK cell differentiation potency of C-kit-1- ualhematopoietic stem cells via identifying cytokine profiles.

Author

Farahzadi, Raheleh, Valipour, Behnaz, Anakok, Omer Faruk, Fathi, Ezzatollah, and Montazersaheb, Soheila

Subjects

*KILLER cells, *STEM cells, *CELL differentiation, *NOTCH proteins, *CYTOKINES

Abstract

Natural killer cells ( NK cells ) can kill cancerous cells without prior sensitization . This feature makes them appealing candidates for cellular therapy. Due to the degradation rate and controlled release of these matrices, hydrogels hold great promise in cell differentiation. The study aims to investigate the effect of encapsulated alginate-gelatin on the differentiation potential of C-kit- cells toward NK cells which are mediated by cytokines detection. Under both encapsulated and unencapsulated conditions, C-kit- cells can differentiate into NK cells. In the following, real-time PCR and western blotting were done to investigate the mRNA and protein expression, respectively. Determine cytokine profiles from the collected culture medium conducted a Cytokine antibody array. The differentiated cells were then co-cultured with Molt-4 cells to examine the expression levels of INF-7, TNF-cY, and IL- 10 using real-time-PCR. There was a substantial change in protein expression of the Notch pathway. Also, the encapsulation increased the mRNA expression of INF-7 and TNF-a in Molt-4 cells. Based on these findings, the encapsulation effects on the differentiation of C-kit- cells toward NK cells could be related to the secreted cytokines such as interleukin-10 and INF-7 and the Notch protein expression. [ABSTRACT FROM AUTHOR]

Published

2023

33. ADAM10 在人动静脉内瘘狭窄处血管组织中的表达及其对血管平滑肌细胞增殖和迁移的影响.

Author

孙利军, 冯 杰, 刘小明, 任广伟, and 阮 琳

Subjects

*NOTCH signaling pathway, *VASCULAR smooth muscle, *NOTCH proteins, *CHRONIC kidney failure, *GENE expression, *WESTERN immunoblotting

Abstract

Objective：To investigate the expression of a disintegrin and metalloproteinase 10 (ADAM10) in vascular tissue at the stenosis of human arteriovenous fistula (AVF) and its effect on the proliferation and migration of the vascular smooth muscle cells (VSMCs), and to clarify its possible molecular mechanism. Methods：The stenotic venous vascular tissue of 42 patients with end-stage renal disease (ESRD) who underwent reoperation due to AVF stenosis (AVF group) and their normal venous vascular tissue during the first operation (normal control group) were collected. Immunohistochemistry assay was used to detect the expressions of ADAM10 protein in venous vascular tissue of the patients in two groups；real-time fluorescence quantitative PCR (RT-qPCR) assay was used to detect the expression levels of ADAM10 mRNA in venous vascular tissue of the patients in two groups；the VSMCs were divided into control group and model group ［lipopoly saccharide (LPS) group，given 10 mg·L-1 LPS］, LPS + si-NC group (transfected with si-NC plasmid +10 mg·L-1 LPS)，LPS+si-ADAM10 group (transfected with si-ADAM10 plasmid +10 mg·L-1 LPS)，LPS+Notch signal pathway inhibitor DAPT group (10 mg·L-1 LPS+10 μmol·L-1 Notch signal pathway inhibitor DAPT), and LPS+si-ADAM10+DAPT group (transfected with si-ADAM10 plasmid +10 mg·L-1 LPS+10 µmol·L-1 DATP)； CCK-8 method was used to detect the proliferation activities of the cells in various groups； Transwell assay was used to detect the numbers of the migration cells in various groups； Western blotting method was used to detect the expression levels of ADAM10，proliferating cell nuclear antigen (PCNA)，matrix metalloproteinase-9 (MMP-9), Notch homolog protein 1 (Notch1), Notch intracellular domain (NICD), and hairy and enhancer of split 1 (Hes1) proteins in the cells in various groups. Results：Compared with normal control group, the expression levels of ADAM10 protein and ADAM10 mRNA in venous vascular tissue of the patients in AVF group were significantly increased (P<0. 05). Compared with control group, the proliferation activity，number of the migration cells and expression levels of ADAM10, PCNA, MMP-9, Notch1, NICD, and Hes1 proteins in the cells in LPS group were significantly increased (P<0. 05)； compared with LPS and LPS+si-NC group, the proliferation activity and number of the migration cells and expression levels of ADAM10, PCNA, MMP-9, Notch1, NICD, and Hes1 proteins in the cells in LPS+ si-ADAM10 group were significantly decreased (P<0. 05). Compared with LPS group, the proliferative activities，numbers of the migration cells and expression levels of PCNA, MMP-9, Notch1, NICD, and Hes1 proteins in the cells in LPS+si-ADAM10 group and LPS+DAPI group were significantly decreased (P<0. 05)； compared with LPS+si-ADAM10 group, the proliferation activity, number of the migration cells and expression levels of PCNA, MMP-9, Notch1, NICD, and Hes1 proteins in the cells in LPS+ si-ADAM10+DAPT group were significantly decreased (P<0. 05). Conclusion：ADAM10 is highly expressed in the vascular tissue at the stenosis of AVF, and silencing the expression of ADAM10 gene can inhibit the proliferation and migration of the VSMCs induced by LPS；its mechanism may be related to blocking the Notch signal pathway. [ABSTRACT FROM AUTHOR]

Published

2023

34. Next-generation Drosophila protein interactome map and its functional implications.

Author

Bhat, Guruharsha, Li, Kejie, Locke, George, Theodorou, Marina, Kilambi, Krishna, Hori, Kazuya, Ho, Diana, Obar, Robert, Williams, Leah, Parzen, Hannah, Dephoure, Noah, Braun, Craig, Muskavitch, Marc, Celniker, Susan E., Gygi, Steven, and Artavanis-Tsakonas, Spyros

Subjects

*NOTCH signaling pathway, *NOTCH proteins, *PROTEIN-protein interactions, *MEMBERSHIP in associations, institutions, etc., *DROSOPHILA, *NOTCH genes

Abstract

We describe a next-generation Drosophila protein interaction map—"DPIM2"—established from affinity purification-mass spectrometry of 5,805 baits, covering the largest fraction of the Drosophila proteome. The network contains 32,668 interactions among 3,644 proteins, organized into 632 clusters representing putative functional modules. Our analysis expands the pool of known protein interactions in Drosophila , provides annotation for poorly studied genes, and postulates previously undescribed protein interaction relationships. The predictive power and functional relevance of this network are probed through the lens of the Notch signaling pathway, and we find that newly identified members of complexes that include known Notch modifiers can also modulate Notch signaling. DPIM2 allows direct comparisons with a recently published human protein interaction network, defining the existence of functional interactions conserved across species. Thus, DPIM2 defines a valuable resource for predicting protein co-complex memberships and functional associations as well as generates functional hypotheses regarding specific protein interactions. [Display omitted] • DPIM2 is the next-generation Drosophila protein interaction map • Annotates poorly studied genes through protein interaction relationships • Genetic validation confirms network-predicted interactors modulate Notch signaling • Comparison with yeast and human networks identifies conserved functional interactions Bhat and Li et al. establish the Drosophila protein interaction map "DPIM2" from affinity purification-mass spectrometry of 5,805 proteins. The network is organized into 632 putative functional clusters and is a resource for predicting protein co-complex memberships and functional associations as well as for generating functional hypotheses regarding poorly characterized proteins. [ABSTRACT FROM AUTHOR]

Published

2024

35. A Drosophila Su(H) model of Adams-Oliver Syndrome reveals cofactor titration as a mechanism underlying developmental defects.

Author

Gagliani, Ellen K., Gutzwiller, Lisa M., Kuang, Yi, Odaka, Yoshinobu, Hoffmeister, Phillipp, Hauff, Stefanie, Turkiewicz, Aleksandra, Harding-Theobald, Emily, Dolph, Patrick J., Borggrefe, Tilman, Oswald, Franz, Gebelein, Brian, and Kovall, Rhett A.

Subjects

*DNA-binding proteins, *NOTCH signaling pathway, *DROSOPHILA, *NOTCH proteins, *SCALP, *CARRIER proteins, *NOTCH genes

Abstract

Notch signaling is a conserved pathway that converts extracellular receptor-ligand interactions into changes in gene expression via a single transcription factor (CBF1/RBPJ in mammals; Su(H) in Drosophila). In humans, RBPJ variants have been linked to Adams-Oliver syndrome (AOS), a rare autosomal dominant disorder characterized by scalp, cranium, and limb defects. Here, we found that a previously described Drosophila Su(H) allele encodes a missense mutation that alters an analogous residue found in an AOS-associated RBPJ variant. Importantly, genetic studies support a model that heterozygous Drosophila with the AOS-like Su(H) allele behave in an opposing manner to heterozygous flies with a Su(H) null allele, due to a dominant activity of sequestering either the Notch co-activator or the antagonistic Hairless co-repressor. Consistent with this model, AOS-like Su(H) and Rbpj variants have decreased DNA binding activity compared to wild type proteins, but these variants do not significantly alter protein binding to the Notch co-activator or the fly and mammalian co-repressors, respectively. Taken together, these data suggest a cofactor sequestration mechanism underlies AOS phenotypes associated with RBPJ variants, whereby the AOS-associated RBPJ allele encodes a protein with compromised DNA binding activity that retains cofactor binding, resulting in Notch target gene dysregulation. Author summary: Adams-Oliver Syndrome (AOS) is a rare disease defined by missing skin/skull tissue, limb malformations, and cardiovascular abnormalities. Human genetic studies have revealed that ~40% of AOS patients inherit dominant mutations within specific genes in the Notch signaling pathway. Notch signaling is a highly conserved cell-to-cell communication pathway found in all metazoans and plays crucial roles during embryogenesis and tissue homeostasis in organisms from Drosophila (fruit-flies) to mammals. The Notch receptor converts cell-to-cell interactions into a Notch signal that enters the nucleus and activates target genes by binding to a highly conserved transcription factor. Here, we took advantage of the unexpected finding that a previously described dominant allele in the Drosophila Notch pathway transcription factor contains a missense variant in an analogous residue found in a family with AOS. Using this novel animal model of AOS along with biochemical DNA binding, protein-protein interaction, and transcriptional reporter assays, we found that this transcription factor variant selectively compromises DNA binding but not binding to the Notch signal nor binding to other proteins in the Notch pathway. Taken together with prior human genetic studies, these data suggest AOS phenotypes associated with variants in the Notch pathway transcription factor are caused by a dominant mechanism that sequesters the Notch signal, leading to Notch target gene dysregulation. [ABSTRACT FROM AUTHOR]

Published

2022

36. Notch, Numb and Numb-like responses to exercise-induced muscle damage in human skeletal muscle.

Author

Bubak, Matthew P., Stout, Kevan, Tomtschik, Julia, Peterson, Ethan, Cardozo, Christopher P., Graham, Zachary A., and Gallagher, Philip

Subjects

*SKELETAL muscle, *VASTUS lateralis, *NOTCH proteins, *PROTEIN expression, *GENE expression, *REST periods

Abstract

This investigation examined changes in the gene and protein expression of Notch, Numb and Numb-like (Numbl) in human skeletal muscle after an acute bout of eccentric exercise-induced muscle damage. Twelve recreationally active male subjects participated in this study. These individuals completed seven sets of 10 repetitions of eccentric leg extension at 120% of one-repetition max with 2 min of rest period between sets. Four muscle biopsies of the vastus lateralis were collected: before exercise (Pre), and 3 h, 2 days and 5 days post-muscle damage. Biopsy samples were used to probe Notch, NumbandNumbl utilizingwestern blot andRT-qPCR techniques. The results were analysed using a one-way repeated-measures ANOVA. Notch1mRNA expression trended toward a significant increase from Pre to 2 days post-muscle damage from baseline measures (P = 0.087), while Numb (P = 0.804) and Numbl (P = 0.480) expression was unaltered post-muscle damage. There were no significant differences in protein expression post-muscle damage for any of the proteins. These results suggest that exercise-induced muscle damage, via eccentric exercise, slightly elevates Notch1 mRNA expression. [ABSTRACT FROM AUTHOR]

Published

2022

37. Lfng and Dll3 cooperate to modulate protein interactions in cis and coordinate oscillatory Notch pathway activation in the segmentation clock.

Author

Bochter, Matthew S., Servello, Dustin, Kakuda, Shinako, D'Amico, Rachel, Ebetino, Meaghan F., Haltiwanger, Robert S., and Cole, Susan E.

Subjects

*PROTEIN-protein interactions, *NOTCH proteins, *SOMITOGENESIS, *SOMITE, *NOTCH genes, *GLYCOSYLATION

Abstract

In mammalian development, oscillatory activation of Notch signaling is required for segmentation clock function during somitogenesis. Notch activity oscillations are synchronized between neighboring cells in the presomitic mesoderm (PSM) and have a period that matches the rate of somite formation. Normal clock function requires cyclic expression of the Lunatic fringe (LFNG) glycosyltransferase, as well as expression of the inhibitory Notch ligand Delta-like 3 (DLL3). How these factors coordinate Notch activation in the clock is not well understood. Recent evidence suggests that LFNG can act in a signal-sending cell to influence Notch activity in the clock, raising the possibility that in this context, glycosylation of Notch pathway proteins by LFNG may affect ligand activity. Here we dissect the genetic interactions of Lfng and Dll3 specifically in the segmentation clock and observe distinctions in the skeletal and clock phenotypes of mutant embryos showing that paradoxically, loss of Dll3 is associated with strong reductions in Notch activity in the caudal PSM. The patterns of Notch activity in the PSM suggest that the loss of Dll3 is epistatic to the loss of Lfng in the segmentation clock, and we present direct evidence for the modification of several DLL1 and DLL3 EGF-repeats by LFNG. We further demonstrate that DLL3 expression in cells co-expressing DLL1 and NOTCH1 can potentiate a cell's signal-sending activity and that this effect is modulated by LFNG, suggesting a mechanism for coordinated regulation of oscillatory Notch activation in the clock by glycosylation and cis -inhibition. [Display omitted] • Axial skeletal phenotypes after loss of DLL3 or LFNG are similar except in the sacrum. • Loss of DLL3 in the mouse PSM counterintuitively leads to a reduction in Notch signaling. • Both EGF repeats 2 and 5 of DLL3 are efficiently modified by LFNG. • When cells co-express NOTCH1 and DLL1, induction of DLL3 expression potentiates signal-sending activities. • LFNG blocks DLL3's effect on signal-sending activity, providing cyclic regulation of cis -interactions during somitogenesis. [ABSTRACT FROM AUTHOR]

Published

2022

38. miR-515-3p, miR-623, miR-1272 and Notch3 protein as new biomarkers of Hepatocellular carcinoma.

Author

Asefy, Zahra, Hoseinnejhad, Sirus, Eftekhari, Aziz, and Shoukuhi, Behrooz

Subjects

*MICRORNA, *HEPATOCELLULAR carcinoma, *NOTCH proteins, *RNA regulation, *CIRRHOSIS of the liver

Abstract

Hepatocellular carcinoma (HCC) is a diversity of hepatocellular neoplasms and is more prevalence in people with chronic liver disease and cirrhosis. It has been revealed that modification in miRNA regulation possibly will be elaborated in HCC pathogenesis. In this research 40 samples of HCC subjects and 40 samples of healthy liver were considered. Total RNA was obtained from paraffin-embedded tissue blocks and miR-515, miR-623 and miR-1272 gene expression levels were quantified by Real-Time Quantitative Reverse Transcription PCR. Likewise, the Notch protein quantity was assayed in ffpe materials by immunohistochemistry. Our study disclosed that Notch protein deals was ominously elevated in cancer cells than healthy cells (p<0.05). Data analysis also displayed that miR-515, miR-623 and miR-1272 expression levels were 3.8, 4.7, and 2.9 fold in normal tissues, respectively (p<0.05). Furthermore, it was found that expression levels of these genes are not dependent by hepatitis B and hepatic cirrhosis and it could be used as a marker of high specificity and sensitivity for the diagnosis of HCC. Our study demonstrated main role of miR-515, miR-623 and miR-1272 in HCC pathogenesis and similarly disclosed that these genes expression could be utilized in HCC prognosis. [ABSTRACT FROM AUTHOR]

Published

2022

39. Roles of Notch Signaling in the Tumor Microenvironment.

Author

D'Assoro, Antonino B., Leon-Ferre, Roberto, Braune, Eike-Benjamin, and Lendahl, Urban

Subjects

*NOTCH genes, *TUMOR microenvironment, *NOTCH signaling pathway, *FIBROBLASTS, *NOTCH proteins, *MORPHOGENESIS, *CANCER invasiveness

Abstract

The Notch signaling pathway is an architecturally simple signaling mechanism, well known for its role in cell fate regulation during organ development and in tissue homeostasis. In keeping with its importance for normal development, dysregulation of Notch signaling is increasingly associated with different types of tumors, and proteins in the Notch signaling pathway can act as oncogenes or tumor suppressors, depending on the cellular context and tumor type. In addition to a role as a driver of tumor initiation and progression in the tumor cells carrying oncogenic mutations, it is an emerging realization that Notch signaling also plays a role in non-mutated cells in the tumor microenvironment. In this review, we discuss how aberrant Notch signaling can affect three types of cells in the tumor stroma—cancer-associated fibroblasts, immune cells and vascular cells—and how this influences their interactions with the tumor cells. Insights into the roles of Notch in cells of the tumor environment and the impact on tumor-stroma interactions will lead to a deeper understanding of Notch signaling in cancer and inspire new strategies for Notch-based tumor therapy. [ABSTRACT FROM AUTHOR]

Published

2022

40. Gamma Secretase Inhibitors as Potential Therapeutic Targets for Notch Signaling in Uterine Leiomyosarcoma.

Author

Abedin, Yasmin, Gabrilovich, Sofia, Alpert, Emily, Rego, Erica, Begum, Salma, Zhao, Qingshi, Heller, Debra, Einstein, Mark H., and Douglas, Nataki C.

Subjects

*SECRETASE inhibitors, *NOTCH signaling pathway, *NOTCH proteins, *LEIOMYOSARCOMA, *PRESENILINS, *DRUG target, *NOTCH genes

Abstract

Uterine leiomyosarcoma (uLMS) is a rare and aggressive cancer with few effective therapeutics. The Notch signaling pathway is evolutionarily conserved with oncogenic properties, but it has not been well studied in uLMS. The purpose of our study was to determine expression of Notch family genes and proteins and to investigate the therapeutic effect of γ-secretase inhibitors (GSIs), indirect inhibitors of Notch signaling, in uLMS. We determined expression of Notch genes and proteins in benign uterine smooth muscle tissue, fibroids, and uLMS samples by immunostaining and in two uLMS cell lines, SK-UT-1B (uterine primary) and SK-LMS-1 (vulvar metastasis) by RT-PCR, Western blot and immunostaining. We exposed our cell lines to GSIs, DAPT and MK-0752, and measured expression of HES1, a downstream effector of Notch. Notch proteins were differentially expressed in uLMS. Expression of NOTCH3 and NOTCH4 was higher in uLMS samples than in benign uterine smooth muscle and fibroids. Expression of NOTCH4 was higher in SK-LMS-1 compared to SK-UT-1B. Exposure of SK-UT-1B and SK-LMS-1 to DAPT and MK-0752 decreased expression of HES1 and decreased uLMS cell viability in a dose- and time-dependent manner that was unique to each GSI. Our findings suggest that GSIs are potential therapeutics for uLMS, albeit with limited efficacy. [ABSTRACT FROM AUTHOR]

Published

2022

41. Study Results from Tianjin Medical University General Hospital in the Area of Thrombocytopenia Reported (Ningxueshengban Decoction Regulates Immune Homeostasis By Pi3 K/akt/mtor and Tlr4/nf-kb Signaling Pathways In Immune Thrombocytopenia...).

Subjects

BLOOD platelet disorders, CD antigens, CD4 antigen, BLOOD diseases, NOTCH proteins

Abstract

A study conducted by Tianjin Medical University General Hospital in China has found that the traditional Chinese medicine decoction called Ningxueshengban (NXSB) can regulate immune homeostasis in patients with immune thrombocytopenia (ITP). ITP is an autoimmune hemorrhagic disease characterized by an imbalance of T cells. The researchers discovered that NXSB decoction inhibits the interaction between dendritic cells (DC) and T cells, leading to a reduction in inflammation and immune imbalance. The decoction achieves this by affecting the Toll-like receptor 4 (TLR-4)/NF-kappa B and PI3 K/Akt/mTOR signaling pathways. [Extracted from the article]

Published

2024

42. "Treatment Of Hearing Loss" in Patent Application Approval Process (USPTO 20240299432).

Subjects

NOTCH proteins, BLOOD proteins, SMALL molecules, NEUROLOGICAL disorders, PTEN protein, OLIGONUCLEOTIDES

Abstract

A patent application has been filed for a method of regenerating inner ear cells to treat hearing loss. The method involves using activators of mechanistic target of rapamycin (mTOR) and NOTCH to induce the proliferation and regeneration of inner ear cells. The patent application also mentions the use of phosphatase and tensin homolog (PTEN) inhibitors and Atonal Homolog 1 (Atoh1) activators in combination with the mTOR and NOTCH activators. The invention aims to restore hearing and vestibular function by regenerating hair cells in the cochlea and utricle of the inner ear. [Extracted from the article]

Published

2024

43. Notch and LIM-homeodomain protein Arrowhead regulate each other in a feedback mechanism to play a role in wing and neuronal development in Drosophila.

Subjects

HOMEOBOX proteins, DNA-binding proteins, NOTCH proteins, DEVELOPMENTAL biology, GENE expression

Abstract

A preprint abstract from biorxiv.org discusses the Notch pathway, an evolutionarily conserved signaling system that influences cell fate decisions in various developmental contexts. The study aimed to identify novel effectors of Notch signaling by analyzing the transcriptome of Drosophila wing and eye imaginal discs. The researchers identified a LIM homeodomain protein called Arrowhead (Awh) as a candidate that plays a crucial role in Notch-mediated developmental events. Awh interacts with Notch pathway components and regulates the expression of Notch targets. The study also highlights a regulatory loop between Awh and Notch, with Awh activity being inhibited by activated Notch. The findings suggest a novel feedback regulation between Awh and Notch in wing and neuronal development. However, it is important to note that this preprint has not been peer-reviewed. [Extracted from the article]

Published

2024

44. Reports on Drugs and Therapies Findings from Xinxiang Medical University Provide New Insights (Intelligent drugs based on notch protein remodeling: a defensive targeting strategy for tumor therapy).

Subjects

NOTCH proteins, MESENCHYMAL stem cells, REPORTERS & reporting, DRUG therapy, TUMOR treatment

Abstract

A recent study from Xinxiang Medical University explores the use of intelligent drugs for tumor therapy. The researchers propose a defensive targeting strategy that aims to selectively deploy drugs at the tumor site, minimizing the presence of drugs in healthy tissues and reducing side effects. By endowing mesenchymal stem cells with an intelligent response program, the drugs can autonomously perceive and distinguish tumor cells from non-tumor cells, establishing a logical connection between tumor signals and drug release. This approach offers a promising alternative to traditional aggressive targeting strategies. [Extracted from the article]

Published

2024

45. National Institute of Neurology and Neurosurgery "Manuel Velasco Suarez" Researchers Detail New Studies and Findings in the Area of Proteins (Molecular Mimicry between Toxoplasma gondii B-Cell Epitopes and Neurodevelopmental Proteins: An...).

Subjects

NOTCH proteins, MOLECULAR mimicry, LABORATORY rats, REPORTERS & reporting, HEAT shock proteins, IMMUNOGLOBULIN M

Abstract

Researchers from the National Institute of Neurology and Neurosurgery in Mexico City have conducted a study on the association between Toxoplasma gondii (T. gondii) infection and schizophrenia. The study found that schizophrenic patients had higher levels of anti-Toxoplasma antibodies compared to healthy controls. The researchers also used a bioinformatic approach to identify antigenic mimicry between T. gondii epitopes and human brain proteins involved in development and differentiation. The findings suggest the relevance of pregestational clinical surveillance and screening for potential pathogenic antibodies, as well as the potential for designing vaccines to prevent behavioral and cognitive impairments associated with T. gondii exposure. [Extracted from the article]

Published

2024

46. Extracellular and Intracellular Magnesium Deficiency Found in Pregnant Women with Preeclampsia and Gestational Diabetes Is Associated with Overexpression of Notch Proteins, Cytokines, p53, NF-kB and Proto-Oncogenes: Potential Importance in Growth Retardation, Stillbirths, Fetal Mutations and Increased Cardiovascular Risks and Stroke with Advancing Age in Pregnant Women

Author

Burton M. Altura, Anthony Carella, Nilank C. Shah, Gatha J. Shah, Lawrence M. Resnick, Sara M. Handwerker, and Bella T. Altura

Subjects

Notch proteins, cytokines, p53, NF-kB, proto-oncogenes, cardiovascular risk factors, Medicine

Abstract

In 1983, three of us reported in “Science” that umbilical-placental arteries and veins, obtained from normal pregnant women at term delivery, when exposed in vitro to low concentrations of Mg2+ went into vasospasm; the lower the Mg2+, the greater the contractile force developed. These blood vessels also demonstrated amplified contractile force development when challenged with circulating amines and peptides (e.g., norepinephrine, 5-HT, angiotensin II, etc.). We suggested that severe Mg deficiency during pregnancy could in part be responsible for spontaneous abortions, loss of fetuses, stillbirths, and developmental alterations in infants. Using short-term dietary Mg deficient animals, we have noted a great many molecular and biochemical alterations in ventricular, atrial and somatic vascular smooth muscle alterations including DNA methylation and histone changes leading us to speculate that Mg deficiency may represent a genotoxin promoting mutations and causing epigenetic changes. Over the last 35 years, we have new data on severely preeclamptic and gestational diabetic pregnant women that gives credence to our original hypothesis and demonstrates that recently- discovered developmental proteins, originally found 100 years ago in Drosophila fruit flies termed the “Notch pathway”, due to effects on its wings, appears to be important in development of the umbilical-placental blood vessels in pregnant women. Along with the developmental molecule, p53, these Notch proteins clearly alter the behavior of the umbilical-placental vessels. We believe these new findings probably help to explain many of the genetic-toxicity effects seen in women later in life who develop strokes and cardiovascular diseases. Notch alterations could also play an important role in babies born with cardiac defects.

Published

2021

47. FPR3 reprograms glycolytic metabolism and stemness in gastric cancer via calcium-NFATc1 pathway.

Author

Wang, Lingzhi, Mao, Xinyuan, Yu, Xiang, Su, Jin, Li, Zhenyuan, Chen, Zhian, Ren, Yingxin, Huang, Huilin, Wang, Weisheng, Zhao, Cuiyin, and Hu, Yanfeng

Subjects

*STOMACH cancer, *METABOLIC reprogramming, *CALCIUM ions, *ACTIVATED protein C resistance, *NOTCH proteins, *PEPTIDE receptors

Abstract

Aerobic glycolysis accelerates tumor proliferation and progression, and inhibitors or drugs targeting abnormal cancer metabolism have been developing. Cancer stem-like cells (CSCs) significantly contribute to tumor initiation, metastasis, therapy resistance, and recurrence. Formyl peptide receptor 3 (FPR3), a member of FPR family, involves in inflammation, tissue repair, and angiogenesis. However, studies in exploring the regulatory mechanisms of aerobic glycolysis and CSCs by FPR3 in gastric cancer (GC) remain unknown. Here, we demonstrated that overexpressed FPR3 suppressed glycolytic capacity and stemness of tumor cells, then inhibited GC cells proliferation. Mechanistically, FPR3 impeded cytoplasmic calcium ion flux and hindered nuclear factor of activated T cells 1 (NFATc1) nuclear translocation, leading to the transcriptional inactivation of NFATc1-binding neurogenic locus notch homolog protein 3 (NOTCH3) promoter, subsequently obstructing NOTCH3 expression and the AKT/mTORC1 signaling pathway, and ultimately downregulating glycolysis. Additionally, NFATc1 directly binds to the sex determining region Y-box 2 (SOX2) promoter and modifies stemness in GC. In conclusion, our work illustrated that FPR3 played a negative role in GC progression by modulating NFATc1-mediated glycolysis and stemness in a calcium-dependent manner, providing potential insights into cancer therapy. • FPR3 served as a tumor suppressor in gastric cancer. • FPR3 reprograms glycolysis and stemness in GC. • FPR3 influences cytoplasmic calcium ion and downstream NFATc1 activity. • NFATc1 bound to NOTCH3 promoter to modulate AKT/mTORC1 pathway. • FPR3 interferes with cancer stemness via NOTCH3 and SOX2. [ABSTRACT FROM AUTHOR]

Published

2024

48. Mechanoresponsive ETS1 causes endothelial dysfunction and arterialization in varicose veins via NOTCH4/DLL4 signaling.

Author

Sreelakshmi, B.J., Karthika, C.L., Ahalya, S., Kalpana, S.R., Kartha, C.C., and Sumi, S.

Subjects

*VARICOSE veins, *ENDOTHELIUM diseases, *ENDOTHELIAL cells, *SAPHENOUS vein, *NOTCH proteins, *SHEARING force, *DEPERSONALIZATION

Abstract

Varicose veins are the most common venous disorder in humans and are characterized by hemodynamic instability due to valvular insufficiency and orthostatic lifestyle factors. It is unclear how changes in biomechanical signals cause aberrant remodeling of the vein wall. Our previous studies suggest that Notch signaling is implicated in varicose vein arterialization. In the arterial system, mechanoresponsive ETS1 is a transcriptional activator of the endothelial Notch, but its involvement in sensing disrupted venous flow and varicose vein formation has not been investigated. Here, we use human varicose veins and cultured human venous endothelial cells to show that disturbed venous shear stress activates ETS1-NOTCH4/DLL4 signaling. Notch components were highly expressed in the neointima, whereas ETS1 was upregulated in all histological layers of varicose veins. In vitro microfluidic flow-based studies demonstrate that even minute changes in venous flow patterns enhance ETS1-NOTCH4/DLL4 signaling. Uniform venous shear stress, albeit an inherently low-flow system, does not induce ETS1 and Notch proteins. ETS1 activation under altered flow was mediated primarily by MEK1/2 and, to a lesser extent, by MEK5 but was independent of p38 MAP kinase. Endothelial cell-specific ETS1 knockdown prevented disturbed flow-induced NOTCH4/DLL4 expression. TK216, an inhibitor of ETS-family, prevented the acquisition of arterial molecular identity and loss of endothelial integrity in cells exposed to the ensuing altered shear stress. We conclude that ETS1 senses blood flow disturbances and may promote venous remodeling by inducing endothelial dysfunction. Targeting ETS1 rather than downstream Notch proteins could be an effective and safe strategy to develop varicose vein therapies. [Display omitted] • Even minor disturbances in venous flow activate endothelial ETS1 expression. • ETS1 induce aberrant NOTCH4/DLL4 signaling in response to disturbed venous flow. • ETS1 activation under disturbed venous flow pattern is mediated by MEK1/2 kinases. • ETS inhibitor TK216 prevents arterial endothelial plasticity in venous endothelium. • ETS1 rather than Notch could be targeted for varicose vein pharmacotherapy. [ABSTRACT FROM AUTHOR]

Published

2024

49. Notch2 Blockade Mitigates Methotrexate Chemotherapy-Induced Bone Loss and Marrow Adiposity.

Author

Peymanfar, Yaser, Su, Yu-Wen, and Xian, Cory J.

Subjects

*BONE resorption, *BONE marrow, *MESENCHYMAL stem cells, *ADIPOGENESIS, *NOTCH proteins, *METHOTREXATE, *BONE growth, *HOMEOSTASIS

Abstract

Childhood cancer methotrexate (MTX) chemotherapy often causes bone growth impairments, bone loss, and increased risks of fractures during or after treatment, for which the pathobiology is unclear and there is a lack of specific treatment. Our time course analyses of long bones from rats receiving intensive MTX treatment (mimicking a clinical protocol) found decreased trabecular bone volume, increased osteoclast formation and activity, increased adipogenesis in the expense of osteogenesis from the bone marrow stromal cells at days 6 and 9 following the first of five daily MTX doses. For exploring potential mechanisms, PCR array expression of 91 key factors regulating bone homeostasis was screened with the bone samples, which revealed MTX treatment-induced upregulation of Notch receptor NOTCH2, activation of which is known to be critical in skeletal development and bone homeostasis. Consistently, increased Notch2 activation in bones of MTX-treated rats was confirmed, accompanied by increased expression of Notch2 intracellular domain protein and Notch target genes HEY1, HES1 and HEYL. To confirm the roles of Notch2 signalling, a neutralising anti-Notch2 antibody or a control IgG was administered to rats during MTX treatment. Microcomputed tomography analyses demonstrated that trabecular bone volume was preserved by MTX+anti-Notch2 antibody treatment. Anti-Notch2 antibody treatment ameliorated MTX treatment-induced increases in osteoclast density and NFATc1 and RANKL expression, and attenuated MTX-induced bone marrow adiposity via regulating Wnt/β-catenin signalling and PPARγ expression. Thus, Notch2 signalling plays an important role in mediating MTX treatment-induced bone loss and bone marrow adiposity, and targeting Notch2 could be a potential therapeutic option. [ABSTRACT FROM AUTHOR]

Published

2022

50. Dietary Soy Prevents Alcohol-Mediated Neurocognitive Dysfunction and Associated Impairments in Brain Insulin Pathway Signaling in an Adolescent Rat Model.

Author

Tong, Ming, Ziplow, Jason L., Mark, Princess, and de la Monte, Suzanne M.

Subjects

*SOY proteins, *NOTCH proteins, *INSULIN receptors, *NOTCH genes, *ANIMAL disease models, *ENZYME-linked immunosorbent assay, *CELLULAR signal transduction, *INSULIN

Abstract

Background: Alcohol-related brain degeneration is linked to cognitive-motor deficits and impaired signaling through insulin/insulin-like growth factor type 1 (IGF-1)-Akt pathways that regulate cell survival, plasticity, metabolism, and homeostasis. In addition, ethanol inhibits Aspartyl-asparaginyl-β-hydroxylase (ASPH), a downstream target of insulin/IGF-1-Akt signaling and an activator of Notch networks. Previous studies have suggested that early treatment with insulin sensitizers or dietary soy could reduce or prevent the long-term adverse effects of chronic ethanol feeding. Objective: The goal of this study was to assess the effects of substituting soy isolate for casein to prevent or reduce ethanol's adverse effects on brain structure and function. Methods: Young adolescent male and female Long Evans were used in a 4-way model as follows: Control + Casein; Ethanol + Casein; Control + Soy; Ethanol + Soy; Control = 0% ethanol; Ethanol = 26% ethanol (caloric). Rats were fed isocaloric diets from 4 to 11 weeks of age. During the final experimental week, the Morris Water maze test was used to assess spatial learning (4 consecutive days), after which the brains were harvested to measure the temporal lobe expression of the total phospho-Akt pathway and downstream target proteins using multiplex bead-based enzyme-linked immunosorbent assays (ELISAs) and duplex ELISAs. Results: Ethanol inhibited spatial learning and reduced brain weight, insulin signaling through Akt, and the expression of ASPH when standard casein was provided as the protein source. The substitution of soy isolate for casein largely abrogated the adverse effects of chronic ethanol feeding. In contrast, Notch signaling protein expression was minimally altered by ethanol or soy isolate. Conclusions: These novel findings suggest that the insulin sensitizer properties of soy isolate may prevent some of the adverse effects that chronic ethanol exposure has on neurobehavioral function and insulin-regulated metabolic pathways in adolescent brains. [ABSTRACT FROM AUTHOR]

Published

2022