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1.
Front Immunol ; 14: 1193081, 2023.
Artículo en Inglés | MEDLINE | ID: mdl-37680624

RESUMEN

Yolk sac-derived microglia and peripheral monocyte-derived macrophages play a key role during Parkinson's disease (PD) progression. However, the regulatory mechanism of microglia/macrophage activation and function in PD pathogenesis remains unclear. Recombination signal-binding protein Jκ (RBP-J)-mediated Notch signaling regulates macrophage development and activation. In this study, with an 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) hydrochloride-induced acute murine PD model, we found that Notch signaling was activated in amoeboid microglia accompanied by a decrease in tyrosine hydroxylase (TH)-positive neurons. Furthermore, using myeloid-specific RBP-J knockout (RBP-JcKO) mice combined with a PD model, our results showed that myeloid-specific disruption of RBP-J alleviated dopaminergic neurodegeneration and improved locomotor activity. Fluorescence-activated cell sorting (FACS) analysis showed that the number of infiltrated inflammatory macrophages and activated major histocompatibility complex (MHC) II+ microglia decreased in RBP-JcKO mice compared with control mice. Moreover, to block monocyte recruitment by using chemokine (C-C motif) receptor 2 (CCR2) knockout mice, the effect of RBP-J deficiency on dopaminergic neurodegeneration was not affected, indicating that Notch signaling might regulate neuroinflammation independent of CCR2+ monocyte infiltration. Notably, when microglia were depleted with the PLX5622 formulated diet, we found that myeloid-specific RBP-J knockout resulted in more TH+ neurons and fewer activated microglia. Ex vitro experiments demonstrated that RBP-J deficiency in microglia might reduce inflammatory factor secretion, TH+ neuron apoptosis, and p65 nuclear translocation. Collectively, our study first revealed that RBP-J-mediated Notch signaling might participate in PD progression by mainly regulating microglia activation through nuclear factor kappa-B (NF-κB) signaling.


Asunto(s)
FN-kappa B , Enfermedad de Parkinson , Animales , Ratones , Microglía , Activación de Macrófagos , Transducción de Señal , Dopamina
2.
Mol Pain ; 18: 17448069221121562, 2022 04.
Artículo en Inglés | MEDLINE | ID: mdl-35976914

RESUMEN

Neuropathic pain takes a heavy toll on individual well-being, while current therapy is far from desirable. Herein, we assessed the analgesic effect of ß-elemene, a chief component in the traditional Chinese medicine Curcuma wenyujin, and explored the underlying mechanisms at the level of spinal dorsal horn (SDH) under neuropathic pain. A spared nerve injury (SNI)-induced neuropathic pain model was established in rats. Intraperitoneal injection (i.p.) of ß-elemene was administered for 21 consecutive days. Mechanical allodynia was explored by von Frey filaments. The activation of the mitogen-activated protein kinase (MAPK) family (including ERK, p38, and JNK) in spinal neurons, astrocytes, and microglia was evaluated using immunostaining 29 days after SNI surgery. The expression of GFAP, Iba-1, p-ERK, p-JNK, and p-p38 within the SDH was measured using immunoblotting. The levels of proinflammatory cytokines (including TNF-α, IL-1ß, and IL-6) were measured with ELISA. The levels of oxidative stress indicators (including MDA, SOD, and GSH-PX) were detected using biochemical tests. Consecutive i.p. administration of ß-elemene relieved SNI-induced mechanical allodynia (with an EC50 of 16.40 mg/kg). SNI significantly increased the expression of p-ERK in spinal astrocytes but not microglia on day 29. ß-elemene reversed spinal astrocytic ERK activation and subsequent upregulation of proinflammatory cytokines in SNI rats, with no effect on the expression of p38 and JNK in spinal glia. ß-elemene also exerted antioxidative effects by increasing the levels of SOD and GSH-PX and decreasing the level of MDA. Our results suggest that SNI induces robust astrocytic ERK activation within the SDH in the late phase of neuropathic pain. ß-elemene exerts remarkable analgesic effects on neuropathic pain, possibly by inhibiting spinal astrocytic ERK activation and subsequent neuroinflammatory processes. Our findings suggest that ß-elemene might be a promising analgesic for the treatment of chronic pain.


Asunto(s)
Hiperalgesia , Neuralgia , Analgésicos/metabolismo , Analgésicos/farmacología , Analgésicos/uso terapéutico , Animales , Activación Enzimática , Quinasas MAP Reguladas por Señal Extracelular/metabolismo , Hiperalgesia/complicaciones , Hiperalgesia/tratamiento farmacológico , Hiperalgesia/metabolismo , Neuralgia/tratamiento farmacológico , Neuralgia/metabolismo , Ratas , Ratas Sprague-Dawley , Sesquiterpenos , Médula Espinal/metabolismo , Asta Dorsal de la Médula Espinal/metabolismo , Superóxido Dismutasa/metabolismo
3.
Cell Rep ; 38(10): 110451, 2022 03 08.
Artículo en Inglés | MEDLINE | ID: mdl-35263597

RESUMEN

Myeloid-derived suppressor cells (MDSCs) and tumor-associated macrophages (TAMs) play critical roles in tumorigenesis. However, the mechanisms underlying MDSC and TAM development and function remain unclear. In this study, we find that myeloid-specific activation of Notch/RBP-J signaling downregulates lactate transporter MCT2 transcription via its downstream molecule Hes1, leading to reduced intracellular lactate levels, blunted granulocytic MDSC (G-MDSC) differentiation, and enhanced TAM maturation. We identify c-Jun as a novel intracellular sensor of lactate in myeloid cells using liquid-chromatography-mass spectrometry (LC-MS) followed by CRISPR-Cas9-mediated gene disruption. Meanwhile, lactate interacts with c-Jun to protect from FBW7 ubiquitin-ligase-mediated degradation. Activation of Notch signaling and blockade of lactate import repress tumor progression by remodeling myeloid development. Consistently, the relationship between the Notch-MCT2/lactate-c-Jun axis in myeloid cells and tumorigenesis is also confirmed in clinical lung cancer biopsies. Taken together, our current study shows that lactate metabolism regulated by activated Notch signaling might participate in MDSC differentiation and TAM maturation.


Asunto(s)
Células Supresoras de Origen Mieloide , Carcinogénesis/genética , Humanos , Ácido Láctico , Células Mieloides , Transducción de Señal , Factor de Transcripción HES-1
4.
Int J Biol Sci ; 17(13): 3508-3521, 2021.
Artículo en Inglés | MEDLINE | ID: mdl-34512162

RESUMEN

Rationale: The malignant phenotypes of glioblastomas (GBMs) are primarily attributed to glioma stem cells (GSCs). Our previous study and other reports have suggested that both miR-139 and its host gene PDE2A are putative antitumor genes in various cancers. The aim of this study was to investigate the roles and mechanisms of miR-139/PDE2A in GSC modulation. Methods: Clinical samples were used to determine miR-139/PDE2A expression. Patient-derived glioma stem-like cells (PD-GSCs) were stimulated for immunofluorescent staining, sphere formation assays and orthotopic GBM xenograft models. Bioinformatic analysis and further in vitro experiments demonstrated the downstream molecular mechanisms of miR-139 and PDE2A. OX26/CTX-conjugated PEGylated liposome (OCP) was constructed to deliver miR-139 or PDE2A into glioma tissue specifically. Results: We demonstrated that miR-139 was concomitantly transcribed with its host gene PDE2A. Both PDE2A and miR-139 indicated better prognosis of gliomas and were inversely correlated with GSC stemness. PDE2A or miR-139 overexpression suppressed the stemness of PD-GSCs. FZD3 and ß-catenin, which induced Wnt/ß-catenin signaling activation, were identified as targets of miR-139 and mediated the effects of miR-139 on GSCs. Meanwhile, PDE2A suppressed Wnt/ß-catenin signaling by inhibiting cAMP accumulation and GSK-3ß phosphorylation, thereby modulating the self-renewal of PD-GSCs. Notably, Notch1, which is also a target of miR-139, suppressed PDE2A/miR-139 expression directly via downstream Hes1, indicating that miR-139 promoted its own expression by the miR-139-Notch1/Hes1 feedback circuit. Expectedly, targeted overexpression miR-139 or PDE2A in glioma with OCP system significantly repressed the stemness and decelerated glioma progression. Conclusions: Our findings elaborate on the inhibitory functions of PDE2A and miR-139 on GSC stemness and tumorigenesis, which may provide new prognostic markers and therapeutic targets for GBMs.


Asunto(s)
Fosfodiesterasas de Nucleótidos Cíclicos Tipo 2/metabolismo , Glioma/metabolismo , MicroARNs/metabolismo , Células Madre Neoplásicas , Vía de Señalización Wnt , Animales , AMP Cíclico/metabolismo , Glioma/patología , Humanos , Ratones Desnudos , Receptor Notch1/metabolismo , beta Catenina/metabolismo
5.
Med Oncol ; 28(3): 913-8, 2011 Sep.
Artículo en Inglés | MEDLINE | ID: mdl-20422318

RESUMEN

It has been reported that both polygonal and cuboidal cells in pulmonary sclerosing hemangioma (PSH) are monoclonal in origin and represent a variable differentiation from a common progenitor cell. However, it remains unclear about the clonality of the entire PSH lesion composed of these two types of cells. Thus, we analyzed the clonality of 22 cases of PSH and the relationship between the entire PSH and two types of cells using laser microdissection and X-chromosomal inactivation mosaicism and polymorphism at the phosphoglycerate kinase (PGK) and androgen receptor (AR) loci in female somatic cells. The results demonstrated all 22 cases of PSH showed typical histopathologic characteristics, including characteristic round or polygonal cells within the stroma and surface cuboidal cells lining the papillary projections or cystic spaces. The rates of polymorphism were 31.8% (7/22) and 86.3% (19/22) for the PGK and AR gene, respectively. After digestion by Hpa II or Hha I, one of two PCR amplification bands disappeared from all the samples, while the other band was retained, indicating neoplastic characteristics. Thus, we concluded that the entire PSH lesion, polygonal and cuboidal cells were neoplastic hyperplasia and originated from a common progenitor cell.


Asunto(s)
Fosfoglicerato Quinasa/genética , Polimorfismo Genético , Hemangioma Esclerosante Pulmonar/genética , Receptores Androgénicos/genética , Inactivación del Cromosoma X/genética , Linaje de la Célula/genética , Células Clonales , Femenino , Humanos , Inmunohistoquímica , Rayos Láser , Microdisección , Reacción en Cadena de la Polimerasa
6.
Pathol Res Pract ; 205(9): 601-7, 2009.
Artículo en Inglés | MEDLINE | ID: mdl-19339122

RESUMEN

Erdheim-Chester disease (ECD) is a rare non-Langerhans form of histiocytosis characterized by xanthomatous tissue infiltration with foamy histiocytes. It is still controversial whether these histiocytic proliferations represent monoclonal neoplastic populations or are part of a polyclonal reactive process. This is a case report of ECD in a 76-year-old Chinese woman. We investigated the clinicopathological features and clonality of the histiocytes using laser microdissection and a clonality assay based on X-chromosomal inactivation mosaicism in female somatic tissues, as well as on the polymorphism of phosphoglycerate kinase (PGK) and androgen receptor (AR). According to our results, the lesion was composed of lipid-laden histiocytes and focal fibrous tissues. The lipid-laden histiocytes were positive for CD68 and CD163, but negative for CD1a and S-100. Electron-microscopic examination showed no Birbeck granules, but the presence of lipid vacuoles. Moreover, the result of the clonality assay demonstrated that these cells formed a polyclonal population. In conclusion, ECD is a rare non-Langerhans' cell histiocytosis. Its nature may be a non-neoplastic lesion; however, additional studies with larger sample sizes are necessary to conclusively prove our hypothesis.


Asunto(s)
Enfermedad de Erdheim-Chester/genética , Enfermedad de Erdheim-Chester/patología , Anciano , Antígenos CD/metabolismo , Antígenos de Diferenciación Mielomonocítica/metabolismo , Enfermedad de Erdheim-Chester/metabolismo , Femenino , Humanos , Inmunohistoquímica , Rayos Láser , Microdisección , Microscopía Electrónica de Transmisión , Fosfoglicerato Quinasa/genética , Reacción en Cadena de la Polimerasa , Polimorfismo Genético , Receptores Androgénicos/genética , Receptores de Superficie Celular/metabolismo
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