Shuen-Ei Chen scite author profile

Heme oxygenase (HO)-1 is known to metabolize heme into biliverdin/bilirubin, carbon monoxide, and ferrous iron, and it has been suggested to demonstrate cytoprotective effects against various stress-related conditions. HO-1 is commonly regarded as a survival molecule, exerting an important role in cancer progression and its inhibition is considered beneficial in a number of cancers. However, increasing studies have shown a dark side of HO-1, in which HO-1 acts as a critical mediator in ferroptosis induction and plays a causative factor for the progression of several diseases. Ferroptosis is a newly identified iron- and lipid peroxidation-dependent cell death. The critical role of HO-1 in heme metabolism makes it an important candidate to mediate protective or detrimental effects via ferroptosis induction. This review summarizes the current understanding on the regulatory mechanisms of HO-1 in ferroptosis. The amount of cellular iron and reactive oxygen species (ROS) is the determinative momentum for the role of HO-1, in which excessive cellular iron and ROS tend to enforce HO-1 from a protective role to a perpetrator. Despite the dark side that is related to cell death, there is a prospective application of HO-1 to mediate ferroptosis for cancer therapy as a chemotherapeutic strategy against tumors.

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TNF-α regulates myogenesis and muscle regeneration by activating p38 MAPK

Chen¹,

Jin²,

Li³

2007

American Journal of Physiology-Cell Physiology

266

230

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Chen S-E, Jin B, Li Y-P. TNF-␣ regulates myogenesis and muscle regeneration by activating p38 MAPK. Am J Physiol Cell Physiol 292: C1660 -C1671, 2007. First published December 6, 2006; doi:10.1152/ajpcell.00486.2006.-Although p38 MAPK activation is essential for myogenesis, the upstream signaling mechanism that activates p38 during myogenesis remains undefined. We recently reported that p38 activation, myogenesis, and regeneration in cardiotoxininjured soleus muscle are impaired in TNF-␣ receptor double-knockout (p55) mice. To fully evaluate the role of TNF-␣ in myogenic activation of p38, we tried to determine whether p38 activation in differentiating myoblasts requires autocrine TNF-␣, and whether forced activation of p38 rescues impaired myogenesis and regeneration in the p55Ϫ/Ϫ soleus. We observed an increase of TNF-␣ release from C2C12 or mouse primary myoblasts placed in low-serum differentiation medium. A TNF-␣-neutralizing antibody added to differentiation medium blocked p38 activation and suppressed differentiation markers myocyte enhancer factor (MEF)-2C, myogenin, p21, and myosin heavy chain in C2C12 myoblasts. Conversely, recombinant TNF-␣ added to differentiation medium stimulated myogenesis at 0.05 ng/ml while inhibited it at 0.5 and 5 ng/ml. In addition, differentiation medium-induced p38 activation and myogenesis were compromised in primary myoblasts prepared from p55Ϫ/Ϫ mice. Increased TNF-␣ release was also seen in cardiotoxin-injured soleus over the course of regeneration. Forced activation of p38 via the constitutive activator of p38, MKK6bE, rescued impaired myogenesis and regeneration in the cardiotoxin-injured p55Ϫ/Ϫ soleus. These results indicate that TNF-␣ regulates myogenesis and muscle regeneration as a key activator of p38. myocyte enhancer factor-2C; myogenin; p21; myosin heavy chain; Akt; tumor necrosis factor-␣; mitogen-activated protein kinase SKELETAL MUSCLE HAS A REMARKABLE ability to regenerate itself. However, muscle regeneration is a complex process comprising many highly coordinated events in a sequence of satellite cell activation, proliferation, and differentiation (myogenesis) that repairs damaged myofibers or forms new ones. The activation of satellite cells is characterized by the expression of myogenic regulatory factors (MRFs) Myf 5 and MyoD. After the proliferation phase, satellite cells express myogenin and MRF4 to initiate myogenic differentiation. This is followed by expression of the Cdk inhibitor p21 and a permanent exit from the cell cycle (reviewed in Ref. 11). The regenerative process requires a complicated array of intrinsic and extrinsic signals that regulate various satellite cell activities. Thus, despite many past efforts, our understanding of the intrinsic and extrinsic signals that regulate muscle regeneration remains limited.Initiation of the myogenic program in adult muscle is a critical step in skeletal muscle regeneration, which requires chromatin remodeling in myogenic cells that allows transcriptional activation of myogenic target genes. The act...

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Role of TNF-α signaling in regeneration of cardiotoxin-injured muscle

Chen¹,

Gerken²,

Zhang³

et al. 2005

American Journal of Physiology-Cell Physiology

151

107

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Recent data suggest a physiological role for the proinflammatory cytokine TNF-alpha in skeletal muscle regeneration. However, the underlying mechanism is not understood. In the present study, we analyzed TNF-alpha-activated signaling pathways involved in myogenesis in soleus muscle injured by cardiotoxin (CTX) in TNF-alpha receptor double-knockout mice (p55(-/-)p75(-/-)). We found that activation of p38MAPK, which is critical for myogenesis, was blocked in CTX-injured p55(-/-)p75(-/-) soleus on day 3 postinjury when myogenic differentiation was being initiated, while activation of ERK1/2 and JNK MAPK, as well as transcription factor NF-kappaB, was not reduced. Consequently, the phosphorylation of transcription factor myocyte enhancer factor-2C, which is catalyzed by p38 and crucial for the expression of muscle-specific genes, was blunted. Meanwhile, expression of p38-dependent differentiation marker myogenin and p21 were suppressed. In addition, expression of cyclin D1 was fivefold that in wild-type (WT) soleus. These results suggest that myogenic differentiation is blocked or delayed in the absence of TNF-alpha signaling. Histological studies revealed abnormalities in regenerating p55(-/-)p75(-/-) soleus. On day 5 postinjury, new myofiber formation was clearly observed in WT soleus but not in p55(-/-)p75(-/-) soleus. To the contrary, p55(-/-)p75(-/-) soleus displayed renewed inflammation and dystrophic calcification. On day 12 postinjury, the muscle architecture of WT soleus was largely restored. Yet, in p55(-/-)p75(-/-) soleus, multifocal areas of inflammation, myofiber death, and myofibers with smaller cross-sectional area were observed. Functional studies demonstrated an attenuated recovery of contractile force in injured p55(-/-)p75(-/-) soleus. These data suggest that TNF-alpha signaling plays a critical regulatory role in muscle regeneration.

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TACE release of TNF-α mediates mechanotransduction-induced activation of p38 MAPK and myogenesis

Zhan

Jin

Chen

et al. 2007

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manner. Stretch stimulated the cleavage activity of TACE. Conversely, TACE inhibitor TAPI or TACE siRNA abolished stretch activation of p38. In addition, conditioned medium from stretched myoblast cultures activated p38 in unstretched myoblasts, which required TACE activity in the donor myoblasts, and TNF-␣ receptors in the recipient myoblasts. These results indicate that posttranscriptional activation of TACE mediates the mechanotransduction that activates p38-dependent myogenesis via the release of TNF-␣.

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Shuen-Ei Chen

Heme oxygenase-1 mediates BAY 11–7085 induced ferroptosis

A Dual Role of Heme Oxygenase-1 in Cancer Cells

TNF-α regulates myogenesis and muscle regeneration by activating p38 MAPK

Role of TNF-α signaling in regeneration of cardiotoxin-injured muscle

TACE release of TNF-α mediates mechanotransduction-induced activation of p38 MAPK and myogenesis

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