Bodo Haas scite author profile

Brown adipocytes are a primary site of energy expenditure and reside not only in classical brown adipose tissue but can also be found in white adipose tissue. Here we show that microRNA 155 is enriched in brown adipose tissue and is highly expressed in proliferating brown preadipocytes but declines after induction of differentiation. Interestingly, microRNA 155 and its target, the adipogenic transcription factor CCAAT/enhancer-binding protein β, form a bistable feedback loop integrating hormonal signals that regulate proliferation or differentiation. Inhibition of microRNA 155 enhances brown adipocyte differentiation and induces a brown adipocyte-like phenotype (‘browning’) in white adipocytes. Consequently, microRNA 155-deficient mice exhibit increased brown adipose tissue function and ‘browning’ of white fat tissue. In contrast, transgenic overexpression of microRNA 155 in mice causes a reduction of brown adipose tissue mass and impairment of brown adipose tissue function. These data demonstrate that the bistable loop involving microRNA 155 and CCAAT/enhancer-binding protein β regulates brown lineage commitment, thereby, controlling the development of brown and beige fat cells.

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Protein Kinase G Controls Brown Fat Cell Differentiation and Mitochondrial Biogenesis

Haas

et al. 2009

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Brown adipose tissue (BAT) is a primary site of energy expenditure through thermogenesis, which is mediated by the uncoupling protein-1 (UCP-1) in mitochondria. Here, we show that protein kinase G (PKG) is essential for brown fat cell differentiation. Induction of adipogenic markers and fat storage was impaired in the absence of PKGI. Furthermore, PKGI mediated the ability of nitric oxide (NO) and guanosine 3',5'-monophosphate (cGMP) to induce mitochondrial biogenesis and increase the abundance of UCP-1. Mechanistically, we found that PKGI controlled insulin signaling in BAT by inhibiting the activity of RhoA and Rho-associated kinase (ROCK), thereby relieving the inhibitory effects of ROCK on insulin receptor substrate-1 and activating the downstream phosphoinositide 3-kinase-Akt cascade. Thus, PKGI links NO and cGMP signaling with the RhoA-ROCK and the insulin pathways, thereby controlling induction of adipogenic and thermogenic programs during brown fat cell differentiation.

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Down-regulation of CYLD expression by Snail promotes tumor progression in malignant melanoma

et al. 2009

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High malignancy and early metastasis are hallmarks of melanoma. Here, we report that the transcription factor Snail1 inhibits expression of the tumor suppressor CYLD in melanoma. As a direct consequence of CYLD repression, the protooncogene BCL-3 translocates into the nucleus and activates Cyclin D1 and N-cadherin promoters, resulting in proliferation and invasion of melanoma cells. Rescue of CYLD expression in melanoma cells reduced proliferation and invasion in vitro and tumor growth and metastasis in vivo. Analysis of a tissue microarray with primary melanomas from patients revealed an inverse correlation of Snail1 induction and loss of CYLD expression. Importantly, tumor thickness and progression-free and overall survival inversely correlated with CYLD expression. Our data suggest that Snail1-mediated suppression of CYLD plays a key role in melanoma malignancy.

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Cyclic GMP and Protein Kinase G Control a Src-Containing Mechanosome in Osteoblasts

et al. 2010

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Mechanical stimulation is crucial for bone growth/remodeling, and fluid shear stress promotes anabolic responses in osteoblasts through multiple second messengers, including nitric oxide (NO), but the underlying mechanisms are not well understood. Here we demonstrate that the NO/cGMP/PKG signaling pathway activates Src in mechanically-stimulated osteoblasts, initiating a proliferative response. PKG II is necessary for Src activation, which also requires Src docking to β3 integrins and Src dephosphorylation by a Shp-1/2 phosphatase complex. PKG II directly phosphorylates and stimulates Shp-1 activity, and fluid shear stress triggers PKG II, Src, and Shp recruitment to a mechanosome containing β3 integrins. PKG II-null mice show defective osteoblast Src/Erk signaling, and decreased Erk-dependent gene expression in bone. Our findings reveal crosstalk between NO/cGMP/PKG and integrin signaling and establish a new mechanism of Src activation. Since Src controls Erk, which is key to osteoblast growth and survival, these results support use of PKG-activating drugs as mechano-mimetics for treating osteoporosis.

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Bodo Haas

miR-155 regulates differentiation of brown and beige adipocytes via a bistable circuit

Protein Kinase G Controls Brown Fat Cell Differentiation and Mitochondrial Biogenesis

Down-regulation of CYLD expression by Snail promotes tumor progression in malignant melanoma

Cyclic GMP and Protein Kinase G Control a Src-Containing Mechanosome in Osteoblasts

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