Kbtbd5 is regulated by MyoD and restricted to the myogenic lineage

Kathy M. Bowlin; Laurence J. Embree; Mary G. Garry; Daniel J. Garry; Xiaozhong Shi

doi:10.1016/j.diff.2013.08.002

Kbtbd5 is regulated by MyoD and restricted to the myogenic lineage

Kathy M. Bowlin, Laurence J. Embree, Mary G. Garry, Daniel J. Garry, Xiaozhong Shi

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

BTB-BACK-Kelch (BBK) proteins play broad roles in cellular and molecular regulation. The role of BBK proteins in the skeletal muscle lineage and myogenesis remains an active area of research. Herein, we report a novel BBK gene, Kbtbd5, which we discovered and found to be restricted to the myogenic lineage. We observed that Kbtbd5 was absent in proliferating myoblasts and upregulated upon myogenic differentiation. In situ hybridization analysis revealed that Kbtbd5 was restricted to the skeletal muscle lineage during embryogenesis. We identified a conserved 1.2. kb upstream region, which directs reporter expression to the developing skeletal muscle lineage. Transcriptional and mutagenesis assays demonstrated that the E-box motifs contribute to the Kbtbd5 promoter activity. We have also demonstrated the in vivo and in vitro binding between MRFs and the E-box motif in the 1.2. kb promoter of the Kbtbd5 gene. Our studies have revealed that the Myod family can transactivate the 1.2. kb-luc reporter through the E-box motifs. In addition, we have shown that Kbtbd5 can recruit the Cullin 3 complex in vivo. Using shRNA knockdown, our study has revealed that Kbtbd5 plays an important role in the myogenic differentiation. In summary, we have demonstrated that Kbtbd5 is the direct downstream target gene of the Myod family and regulates myogenic differentiation. Our results further support the notion that Kbtbd5 may serve as an adapter of Cul3 during myogenic differentiation.

Original language	English (US)
Pages (from-to)	184-191
Number of pages	8
Journal	Differentiation
Volume	86
Issue number	4-5
DOIs	https://doi.org/10.1016/j.diff.2013.08.002
State	Published - Nov 2013

Bibliographical note

Funding Information:
We acknowledge the technical assistance of John Shelton and Jennifer L. Springsteen for the studies using in situ hybridization and morphological assessment. We also thank the University of Minnesota Transgenic Facility for the production of the transgenic models. D.J.G is sponsored by National Institutes of Health ( 5R01AR047850 , 5R01AR055906 ). This research is supported by these grants and the Lillehei Heart Institute.

Keywords

Cullin 3
Kbtbd5
MRF
Myogenic differentiation
Myogenic lineage

Access

10.1016/j.diff.2013.08.002

OpenUrl availability

Full text

Cite this

@article{2d87c40cc3d34dcc9e54c109f21d0653,

title = "Kbtbd5 is regulated by MyoD and restricted to the myogenic lineage",

abstract = "BTB-BACK-Kelch (BBK) proteins play broad roles in cellular and molecular regulation. The role of BBK proteins in the skeletal muscle lineage and myogenesis remains an active area of research. Herein, we report a novel BBK gene, Kbtbd5, which we discovered and found to be restricted to the myogenic lineage. We observed that Kbtbd5 was absent in proliferating myoblasts and upregulated upon myogenic differentiation. In situ hybridization analysis revealed that Kbtbd5 was restricted to the skeletal muscle lineage during embryogenesis. We identified a conserved 1.2. kb upstream region, which directs reporter expression to the developing skeletal muscle lineage. Transcriptional and mutagenesis assays demonstrated that the E-box motifs contribute to the Kbtbd5 promoter activity. We have also demonstrated the in vivo and in vitro binding between MRFs and the E-box motif in the 1.2. kb promoter of the Kbtbd5 gene. Our studies have revealed that the Myod family can transactivate the 1.2. kb-luc reporter through the E-box motifs. In addition, we have shown that Kbtbd5 can recruit the Cullin 3 complex in vivo. Using shRNA knockdown, our study has revealed that Kbtbd5 plays an important role in the myogenic differentiation. In summary, we have demonstrated that Kbtbd5 is the direct downstream target gene of the Myod family and regulates myogenic differentiation. Our results further support the notion that Kbtbd5 may serve as an adapter of Cul3 during myogenic differentiation.",

keywords = "Cullin 3, Kbtbd5, MRF, Myogenic differentiation, Myogenic lineage",

author = "Bowlin, {Kathy M.} and Embree, {Laurence J.} and Garry, {Mary G.} and Garry, {Daniel J.} and Xiaozhong Shi",

note = "Funding Information: We acknowledge the technical assistance of John Shelton and Jennifer L. Springsteen for the studies using in situ hybridization and morphological assessment. We also thank the University of Minnesota Transgenic Facility for the production of the transgenic models. D.J.G is sponsored by National Institutes of Health ( 5R01AR047850 , 5R01AR055906 ). This research is supported by these grants and the Lillehei Heart Institute.",

year = "2013",

month = nov,

doi = "10.1016/j.diff.2013.08.002",

language = "English (US)",

volume = "86",

pages = "184--191",

journal = "Differentiation",

issn = "0301-4681",

publisher = "Elsevier BV",

number = "4-5",

}

TY - JOUR

T1 - Kbtbd5 is regulated by MyoD and restricted to the myogenic lineage

AU - Bowlin, Kathy M.

AU - Embree, Laurence J.

AU - Garry, Mary G.

AU - Garry, Daniel J.

AU - Shi, Xiaozhong

N1 - Funding Information: We acknowledge the technical assistance of John Shelton and Jennifer L. Springsteen for the studies using in situ hybridization and morphological assessment. We also thank the University of Minnesota Transgenic Facility for the production of the transgenic models. D.J.G is sponsored by National Institutes of Health ( 5R01AR047850 , 5R01AR055906 ). This research is supported by these grants and the Lillehei Heart Institute.

PY - 2013/11

Y1 - 2013/11

N2 - BTB-BACK-Kelch (BBK) proteins play broad roles in cellular and molecular regulation. The role of BBK proteins in the skeletal muscle lineage and myogenesis remains an active area of research. Herein, we report a novel BBK gene, Kbtbd5, which we discovered and found to be restricted to the myogenic lineage. We observed that Kbtbd5 was absent in proliferating myoblasts and upregulated upon myogenic differentiation. In situ hybridization analysis revealed that Kbtbd5 was restricted to the skeletal muscle lineage during embryogenesis. We identified a conserved 1.2. kb upstream region, which directs reporter expression to the developing skeletal muscle lineage. Transcriptional and mutagenesis assays demonstrated that the E-box motifs contribute to the Kbtbd5 promoter activity. We have also demonstrated the in vivo and in vitro binding between MRFs and the E-box motif in the 1.2. kb promoter of the Kbtbd5 gene. Our studies have revealed that the Myod family can transactivate the 1.2. kb-luc reporter through the E-box motifs. In addition, we have shown that Kbtbd5 can recruit the Cullin 3 complex in vivo. Using shRNA knockdown, our study has revealed that Kbtbd5 plays an important role in the myogenic differentiation. In summary, we have demonstrated that Kbtbd5 is the direct downstream target gene of the Myod family and regulates myogenic differentiation. Our results further support the notion that Kbtbd5 may serve as an adapter of Cul3 during myogenic differentiation.

AB - BTB-BACK-Kelch (BBK) proteins play broad roles in cellular and molecular regulation. The role of BBK proteins in the skeletal muscle lineage and myogenesis remains an active area of research. Herein, we report a novel BBK gene, Kbtbd5, which we discovered and found to be restricted to the myogenic lineage. We observed that Kbtbd5 was absent in proliferating myoblasts and upregulated upon myogenic differentiation. In situ hybridization analysis revealed that Kbtbd5 was restricted to the skeletal muscle lineage during embryogenesis. We identified a conserved 1.2. kb upstream region, which directs reporter expression to the developing skeletal muscle lineage. Transcriptional and mutagenesis assays demonstrated that the E-box motifs contribute to the Kbtbd5 promoter activity. We have also demonstrated the in vivo and in vitro binding between MRFs and the E-box motif in the 1.2. kb promoter of the Kbtbd5 gene. Our studies have revealed that the Myod family can transactivate the 1.2. kb-luc reporter through the E-box motifs. In addition, we have shown that Kbtbd5 can recruit the Cullin 3 complex in vivo. Using shRNA knockdown, our study has revealed that Kbtbd5 plays an important role in the myogenic differentiation. In summary, we have demonstrated that Kbtbd5 is the direct downstream target gene of the Myod family and regulates myogenic differentiation. Our results further support the notion that Kbtbd5 may serve as an adapter of Cul3 during myogenic differentiation.

KW - Cullin 3

KW - Kbtbd5

KW - MRF

KW - Myogenic differentiation

KW - Myogenic lineage

UR - http://www.scopus.com/inward/record.url?scp=84898786002&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=84898786002&partnerID=8YFLogxK

U2 - 10.1016/j.diff.2013.08.002

DO - 10.1016/j.diff.2013.08.002

M3 - Article

C2 - 24361185

AN - SCOPUS:84898786002

SN - 0301-4681

VL - 86

SP - 184

EP - 191

JO - Differentiation

JF - Differentiation

IS - 4-5

ER -

Kbtbd5 is regulated by MyoD and restricted to the myogenic lineage

Abstract

Bibliographical note

Keywords

Access

OpenUrl availability

Other files and links

Fingerprint

Cite this