The linear ubiquitin chain assembly complex (LUBAC) regulates NF-B activation by modifying proteins with linear (M1linked) ubiquitination chains. Although LUBAC also regulates the apoptosis pathway, the precise mechanism by which LUBAC regulates apoptosis remains not fully defined. Here, we report that LUBAC-mediated M1-linked ubiquitination of cellular FLICE-like inhibitory protein (cFLIP), an anti-apoptotic molecule, contributes to tumor necrosis factor (TNF) ␣-induced apoptosis. We found that deficiency of RNF31, the catalytic subunit of the LUBAC complex, promoted cFLIP degradation in a proteasome-dependent manner. Moreover, we observed RNF31 directly interact with cFLIP, and LUBAC further conjugated M1-linked ubiquitination chains at Lys-351 and Lys-353 of cFLIP to stabilize cFLIP, thereby protecting cells from TNF␣induced apoptosis. Together, our study identifies a new substrate of LUBAC and reveals a new molecular mechanism through which LUBAC regulates TNF␣-induced apoptosis via M1-linked ubiquitination. Tumor necrosis factor (TNF) 3 ␣ is a cytokine that plays roles in various cellular processes, such as proliferation, differentiation, and death. It has been reported that it mainly activates two different signaling pathways: nuclear factor (NF)-B activation and cell death (1, 2). Once TNF␣ binds to its receptor, signaling molecules such as the TNF receptor 1-associated DEATH domain, receptor-interacting serine/threonine-protein kinase 1 (RIPK1), and TNF receptor-associated factors (TRAFs) are
T-cell acute lymphoblastic leukemia (T-ALL) is an aggressive hematologic
malignancy, and T-ALL patients are prone to early disease relapse and suffer
from poor outcomes. The PTEN, PI3K/AKT, and Notch pathways are frequently
altered in T-ALL. PTEN is a tumor suppressor that inactivates the PI3K pathway.
We profiled miRNAs in Pten-deficient mouse T-ALL and identified
miR-26b as a potentially dysregulated gene. We validated decreased expression
levels of miR-26b in mouse and human T-ALL cells. In addition, expression of
exogenous miR-26b reduced proliferation and promoted apoptosis of T-ALL cells
in vitro, and hindered progression of T-ALL in
vivo. Furthermore, miR-26b inhibited the PI3K/AKT pathway by
directly targeting PIK3CD, the gene encoding PI3Kδ, in
human T-ALL cell lines. ShRNA for PIK3CD and CAL-101, a PIK3CD
inhibitor, reduced the growth and increased apoptosis of T-ALL cells. Finally,
we showed that PTEN induced miR-26b expression by regulating the differential
expression of Ikaros isoforms that are transcriptional regulators of miR-26b.
These results suggest that miR-26b functions as a tumor suppressor in the
development of T-ALL. Further characterization of targets and regulators of
miR-26b may be promising for the development of novel therapies.
We study the dynamics of a general multi-emitter system coupled to the squeezed vacuum reservoir and derive a master equation for this system based on the Weisskopf-Wigner approximation. In this theory, we include the effect of positions of the squeezing sources which is usually neglected in the previous studies. We apply this theory to a quasi-one-dimensional waveguide case where the squeezing in one dimension is experimentally achievable. We show that while dipole-dipole interaction induced by ordinary vacuum depends on the emitter separation, the two-photon process due to the squeezed vacuum depends on the positions of the emitters with respect to the squeezing sources. The dephasing rate, decay rate and the resonance fluorescence of the waveguide-QED in the squeezed vacuum are controllable by changing the positions of emitters. Furthermore, we demonstrate that the stationary maximum entangled NOON state for identical emitters can be reached with arbitrary initial state when the center-of-mass position of the emitters satisfies certain condition.
Previous reports have confirmed that miR-206 participates in inflammatory cardiomyopathy, but its definite mechanism remains elusive. This study aims to elucidate the potential mechanism of miR-206 in septic cardiomyopathy (SCM). The primary mouse cardiomyocytes were isolated and exposed to lipopolysaccharides (LPS) to construct a septic injury model in vitro. Then, the gene transcripts and protein levels were detected by RT-qPCR and/or Western blot assay. Cell proliferation, apoptosis, and inflammatory responses were evaluated by CCK-8/EdU, flow cytometry, and ELISA assays, respectively. Dual luciferase assay, Co-IP, and ubiquitination experiments were carried out to validate the molecular interactions among miR-206, USP33, and JAK2/STAT3 signaling. miR-206 was significantly downregulated, but USP33 was upregulated in LPS-induced cardiomyocytes. Gain-of-function of miR-206 elevated the proliferation but suppressed the inflammatory responses and apoptosis in LPS-induced cardiomyocytes. USP33, as a member of the USP protein family, was confirmed to be a direct target of miR-206 and could catalyze deubiquitination of JAK2 to activate JAK2/STAT3 signaling. Rescue experiments presented that neither upregulation of USP33 nor JAK2/STAT3 signaling activation considerably reversed the protective effects of miR-206 upregulation in LPS-induced cardiomyocytes. The above data showed that miR-206 protected cardiomyocytes from LPS-induced inflammatory injuries by targeting the USP33/JAK2/STAT3 signaling pathway, which might be a novel target for SCM treatment.
Abstract. We show theoretically that by applying a bichromatic electromagnetic field, the dressed states of a monochromatically driven two-level atom can be pumped into a coherent superposition termed as dressed-state coherent population trapping. Such effect can be viewed as a new doorknob to manipulate a two-level system via its control over dressed-state populations. Application of this effect in the precision measurement of Rabi frequency, the unexpected population inversion and lasing without inversion are discussed to demonstrate such controllability.
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