Signaling by Bone Morphogenetic Proteins and Smad1 Modulates the Postnatal Differentiation of Cerebellar Cells

Angley, Catherine; Kumar, Mallika; Dinsio, Kyl J.; Hall, Alison K.; Siegel, Ruth E.

doi:10.1523/jneurosci.23-01-00260.2003

Cited by 71 publications

(66 citation statements)

References 48 publications

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“…Numerous experiments in a variety of in vitro models have demonstrated that multiple BMPs, used individually or in various combinations can induce the differentiation of a wide variety of tissues including bone, cartilage, adipose tissue, and muscle [4,8,21,22]. BMP-2 and BMP-7 have further been demonstrated to enhance bone healing in vivo in animals and humans in settings such as spinal fusion, fracture repair and distraction osteogenesis [23][24][25].…”

Section: Discussionmentioning

confidence: 99%

Autogenous regulation of a network of bone morphogenetic proteins (BMPs) mediates the osteogenic differentiation in murine marrow stromal cells

Edgar

Chakravarthy

Barnes

et al. 2007

Bone

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The expression patterns of (bone morphogenetic proteins) BMPs during fracture repair and pre-natal bone development suggests that these processes are regulated through the coordinated actions of multiple BMPs. Murine bone marrow stromal cells (MSCs) in culture provide a well recognized ex vivo system of mesenchymal stem cell differentiation in which the effects of BMPs can be examined. Studies were performed to determine if MSC differentiation is dependent on the endogenous expression of multiple BMPs and to characterize their interactions. MSCs were harvested from the bone marrow of tibiae and femora of 8 to 10 week old male C57/B6 mice and prepared by standard methods. Osteogenic differentiation was assessed by histological assays, alkaline phosphatase enzyme activity and assays for the expression of multiple mRNAs for BMPs and osteogenic development. The role of autogenously expressed BMPs in controlling the osteogenic differentiation of marrow stromal cells in vitro was assessed in both gain-of-function and loss-of-function experiments. Gain of function experiments were carried out in the presence of exogenously added BMP-2 or 7 and loss of function experiments were carried out by BMP antagonism with noggin and BMP-2 antibody blockade. Osteogenic differentiation was concurrent with and proportional to increases in the expression of BMPs 2, 3, 4, 5, 6, and 8A. BMP antagonism with either noggin or BMP-2 antibody blockade inhibited osteogenic differentiation by 50% to 80% respectively and reduced the expression of endogenous levels of BMPs 2, 3, 5, and 8A. In contrast, antagonism induced the expression of BMP-4 and 6. The addition of rhBMP-2 or 7 enhanced osteogenic differentiation and produced a reciprocal expression profile in the endogenous BMPs expression as compared to BMP antagonism. BMP antagonism could be rescued through the competitive addition of rhBMP-2. These studies demonstrated that osteogenic differentiation was regulated by a complex network of multiple BMPs that showed selective increased and decreased expression during differentiation. They further demonstrated that BMP-2 was a central regulator in this network.

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Section: Discussionmentioning

confidence: 99%

Autogenous regulation of a network of bone morphogenetic proteins (BMPs) mediates the osteogenic differentiation in murine marrow stromal cells

Edgar

Chakravarthy

Barnes

et al. 2007

Bone

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“…It is unknown whether some GCPs also develop into astroglial cells in vivo. Although it has been shown that both Shh (12)(13)(14) and BMPs (23,33) are expressed in Purkinje cells and in the EGL, it is not known whether the levels of these proteins are sufficient to induce some GCPs to develop into astroglial cells. Such differentiation could easily be missed because only a small proportion of GCPs are induced to become astroglial cells in culture by Shh and BMPs.…”

Section: Discussionmentioning

confidence: 99%

“…Taken together, these results suggest that immature GCPs treated with Shh-N and BMP2 differentiate first into the GFAPand neuronal marker-positive cells and then finally into GFAPpositive, S100-␤-positive, neuronal marker-negative, and differentiated astroglial cells. initiate the program of granule cell specification, and Angley et al (23) provided evidence that BMP4 might participate in regulating postnatal granule cell and astroglial cell differentiation. Several laboratories have shown that Shh produced and released by Purkinje cells is a potent mitogen for GCPs (12)(13)(14)(15)24).…”

Section: Some ''Switching Cells'' Coexpress Neuronal and Astrocyte Mamentioning

confidence: 99%

“…Also, Dahmane and Ruiz-i-Altaba (13) reported that Shh induces the differentiation of Bergmann glia. Because both BMPs (23) and Shh (12)(13)(14) are expressed in the postnatal cerebellum, we examined the effect of both factors administered together to cultured GCPs. We find that a small proportion of the GCPs differentiate into astroglial cells in the presence of both BMPs and Shh but not in the presence of either protein alone.…”

Section: Some ''Switching Cells'' Coexpress Neuronal and Astrocyte Mamentioning

confidence: 99%

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Cerebellar granule cell precursors can differentiate into astroglial cells

Okano-Uchida

Himi

Komiya

et al. 2004

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

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During CNS development, multipotent neural stem cells give rise first to various kinds of specified precursor cells, which proliferate extensively before terminally differentiating into either neurons or glial cells. It is still not clear, however, whether the specified precursor cells are irreversibly determined to differentiate into their particular cell types. In this study, we show that isolated mouse cerebellar granule cell precursors from the outermost, proliferative zone of the external germinal layer can differentiate into astroglial cells when exposed to sonic hedgehog (Shh) and bone morphogenetic proteins. These induced cells initially expressed both glial fibrillary acidic protein and neuronal markers, but they then lost their neuronal markers and acquired S100-␤, a marker of differentiated astroglial cells. These results indicate that at least some granule cell precursors are not irreversibly committed to neuronal development but can be induced to differentiate into astroglial cells by appropriate extracellular signals.

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“…Hindbrain roof plate cultures express Bmp6, Bmp7, and Gdf7 and these factors are sufficient to induce cerebellar granule neurons (Alder et al 1999;Machold et al 2007). BMP-4 and BMP-6 stimulate differentiation and promote survival of granule neurons (Angley et al 2003;BarnedaZahonero et al 2009), whereas targeted inactivation of Bmpr1a and Bmpr1b in mice results in fewer cerebellar granule neurons, causing a smaller cerebellar cortex without foliation (Qin et al 2006). Application of noggin to the developing midbrain -hindbrain border results in complete loss or dorsal shift of Phox2-positive neurons.…”

Section: Tgf-b and Neural Developmentmentioning

confidence: 99%

TGF-β Family Signaling in Neural and Neuronal Differentiation, Development, and Function

Meyers

Kessler

2017

Cold Spring Harb Perspect Biol

137

107

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Signaling by Bone Morphogenetic Proteins and Smad1 Modulates the Postnatal Differentiation of Cerebellar Cells

Cited by 71 publications

References 48 publications

Autogenous regulation of a network of bone morphogenetic proteins (BMPs) mediates the osteogenic differentiation in murine marrow stromal cells

Autogenous regulation of a network of bone morphogenetic proteins (BMPs) mediates the osteogenic differentiation in murine marrow stromal cells

Cerebellar granule cell precursors can differentiate into astroglial cells

TGF-β Family Signaling in Neural and Neuronal Differentiation, Development, and Function

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