Subcellular targeting of metabolic enzymes to titin in heart muscle may be mediated by DRAL/FHL-2

Lange, Stephan; Auerbach, Daniel; McLoughlin, P.; Perriard, Evelyne; Schäfer, Beat W.; Perriard, Jean‐Claude; Ehler, Elisabeth

doi:10.1242/jcs.00181

Cited by 236 publications

(252 citation statements)

References 88 publications

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“…Because FHL2 has been shown to be implicated in the transmission of Rho-induced signals (47), it will be important to establish the specific physiological function of the FHL2 regulation of AP-1 activity and whether this activity may be coupled to the stimulation of the Rho-based signaling system. Finally, the recent finding that FHL2 may operate as an adaptor protein to couple metabolic enzymes to sites of high-energy consumption in the cardiac sarcomere (48) indicates that this LIM-only protein may have pleiotropic functions depending on its subcellular localization. Our experiments provide an important clue on the physiological significance of the nuclear-cytoplasmic shuttling of FHL2.…”

Section: Resultsmentioning

confidence: 99%

The LIM-only protein FHL2 is a serum-inducible transcriptional coactivator of AP-1

Morlon

Sassone–Corsi

2003

Proc. Natl. Acad. Sci. U.S.A.

115

123

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Section: Resultsmentioning

confidence: 99%

The LIM-only protein FHL2 is a serum-inducible transcriptional coactivator of AP-1

Morlon

Sassone–Corsi

2003

Proc. Natl. Acad. Sci. U.S.A.

115

123

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“…One possible explanation for the dual role of FHL2 in a transcription or regulating signaling pathway might be that FHL2 acts to stabilize the functional complexes as a type of bridging factor. This explanation was supported by the fact, like that the formation of a ternary complex by FHL2, CBP/ p300, and b-catenin could synergistically activate ARmediated transcription (28), and that FHL2 interacts with titin, a protein that plays a crucial role as organizer of the sarcomere, and functions as an adaptor molecule that links the metabolic enzymes MM-creatine kinase, adenylate cyclase and phosphofructokinase to titin, thereby helping to recruit metabolic enzymes needed for energy provision during muscle contraction (40). In dramatic contrast, we observed that FHL2 acts as a competitor of E47 for Id2 binding and subsequently allows E47 to recruit to its target DNA and execute its transcriptional activity ( Figure 3 and 4).…”

Section: Discussionmentioning

confidence: 99%

FHL2 interacts with and acts as a functional repressor of Id2 in human neuroblastoma cells

Han

Zhao

et al. 2009

Chin. J. Cancer Res.

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Inhibitor of differentiation 2 (Id2) is a natural inhibitor of the basic helix-loop-helix transcription factors. Although Id2 is well known to prevent differentiation and promote cell-cycle progression and tumorigenesis, the molecular events that regulate Id2 activity remain to be investigated. Here, we identified that Four-and-a-half LIM-only protein 2 (FHL2) is a novel functional repressor of Id2. Moreover, we demonstrated that FHL2 can directly interact with all members of the Id family (Id1-4) via an N-terminal loop-helix structure conserved in Id proteins. FHL2 antagonizes the inhibitory effect of Id proteins on basic helix-loop-helix protein E47-mediated transcription, which was abrogated by the deletion mutation of Ids that disrupted their interaction with FHL2. We also showed a competitive nature between FHL2 and E47 for binding Id2, whereby FHL2 prevents the formation of the Id2-E47 heterodimer, thus releasing E47 to DNA and restoring its transcriptional activity. FHL2 expression was remarkably up-regulated during retinoic acidinduced differentiation of neuroblastoma cells, during which the expression of Id2 was opposite to that. Ectopic FHL2 expression in neuroblastoma cells markedly reduces the transcriptional and cell-cycle promoting functions of Id2. Altogether, these results indicate that FHL2 is an important repressor of the oncogenic activity of Id2 in neuroblastoma cells.

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“…In the cytoplasm, FHL proteins have been shown to be localized to cytoskeletons such as actin stress fibers (6, 9, 52, 65), focal adhesions (6,29,65), and the Z-discs (9, 27, 29) of cultured cells and muscle tissues. Recent reports indicate that FHL3 inhibits ␣-actinin-mediated bundling of actin fibers in vitro (9), and FHL2 mediates the targeting of the metabolic enzymes creatine kinase, adenylate kinase, and phosphofructokinase to the elastic filament protein titin in cardiomyocytes (27). In the nucleus, several FHL family members have been demonstrated to bind directly to DNA-binding transcriptional factors and to function as transcriptional coregulators.…”

Section: Discussionmentioning

confidence: 99%

FHL5, a novel actin-binding protein, is highly expressed in eel gill pillar cells and responds to wall tension

Mistry

Kato²,

Tran³

et al. 2004

American Journal of Physiology-Regulatory, Integrative and Comp

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Supporting evidence for the contractile nature of fish branchial pillar cells was provided by demonstrating the presence of actin fibers and a novel four-and-a-half LIM (FHL) protein in which expression is specific for contractile tissues and sensitive to the tension applied to the pillar cell. When eel gill sections were stained with rhodamine-phalloidin, a selective fluorescent probe for fibrous actin, a strong bundle-like staining was observed around collagen columns in pillar cells, suggesting the presence of abundant actin fibers. A cDNA clone encoding a novel member of the actin-binding FHL family, FHL5, was isolated from a subtracted cDNA library of eel gill. Northern analysis revealed that FHL5 mRNA is highly expressed only in gills, heart, and skeletal muscle. In gills, FHL5 was found to be confined to pillar cells by immunohistochemistry. Confocal fluorescence microscopy showed that FHL5 is present in both cytosol and nucleus; within the cytosol, a large portion of FHL5 is colocalized with the phalloidin-positive actin bundles. Furthermore, transfection of myogenic C2C12 cells with FHL5 cDNA demonstrated, in addition to its interaction with actin stress fibers, a nuclear shuttling activity of FHL5. The mRNA and protein levels were found to be elevated on 1) transfer of eels from seawater to freshwater, 2) volume expansion by infusion of isotonic dextran-saline, and 3) constriction of gill vasculature by bolus injection of endothelin-1. These results suggest contractile nature of pillar cells and a role of FHL5 in maintaining the integrity and regulating the dynamics of pillar cells. C2C12 myoblast; endothelin; immunohistochemistry; lamella; zinc finger; four-and-a-half LIM FISH GILLS CONSIST OF a large number of filaments arranged along the gill arches. The surfaces of the filaments are greatly enlarged by a series of plate-like lamellae. Each lamella is composed of two sheets of epithelia separated by a thin space through which the blood circulates to allow the exchange of respiratory gases. The separation between the epithelial sheets is maintained by pillar cells and collagen bundles. Pillar cells are spool-shaped cells connecting two epithelial sheets of the respiratory lamella in fish gills (50,51,64). They are characterized by collagen bundles contained in the infoldings of the plasma membrane and are oriented perpendicularly to the epithelial sheets, which consist of a thin layer of pavement cells and a basal lamina that is continuous with the collagen bundles traversing the pillar cells (49, 64); for the anatomy of gill lamella, see the schematic illustration in Fig. 9D. The membrane-enclosed collagen bundles help prevent ballooning of the lamella. The inner surfaces of the two epithelial sheets are covered with flanges extended from the pillar cells, forming capillary lumen called lacunae. Another feature of the pillar cells is the presence of numerous myofilament-like structures that course through the cytoplasm in an orientation parallel to the collagen bundles. These myofilaments appear to ...

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Subcellular targeting of metabolic enzymes to titin in heart muscle may be mediated by DRAL/FHL-2

Cited by 236 publications

References 88 publications

The LIM-only protein FHL2 is a serum-inducible transcriptional coactivator of AP-1

The LIM-only protein FHL2 is a serum-inducible transcriptional coactivator of AP-1

FHL2 interacts with and acts as a functional repressor of Id2 in human neuroblastoma cells

FHL5, a novel actin-binding protein, is highly expressed in eel gill pillar cells and responds to wall tension

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