CSF-1 induces fos gene transcription and activates the transcription factor Elk-1 in mature osteoclasts

Mice with targeted deletion of the fos gene fail to develop mature osteoclasts, reflecting an absolute requirement for the c-Fos proto-oncogene in osteoclast precursors. C-Fos is also expressed in mature osteoclasts; however, the regulation of fos in these cells has not been studied. By using cultured murine osteoclast-like cells (OCLs) we found that treatment with colony-stimulation factor 1 (CSF-1) induced a 3.9-fold increase in c-Fos rnRNA at 30 minutes and a 2.6-fold increase at 60 minutes. With use of mature osteoclasts isolated from transgenic mice expressing the bacterial Lac-Z gene under the control of the murine fos promoter, we were able to directly demonstrate transcriptional activation of fos by CSF-1 in these cells. Transcriptional activation was 2.6-fold greater at 5 minutes and 2.8-fold greater at 15 minutes in CSF-1-treated cells than in vehicle-treated cells. CSF-1 induced nuclear protein binding to the fos serum response element that was significantly attenuated by antibodies to the transcription factor Elk-1 but not by Sap-1a. Treatment of mature osteoclasts with CSF-1 for 2 hours resulted in a significant increase in the levels of nuclear c-Fos protein. These data demonstrate that CSF-1 upregulates c-fos expression in mature osteoclasts at least in part via transcriptional activation of fos. CSF-1 induced binding of Elk-1 to the fos gene serum response element appears to be part of the molecular mechanism by which this occurs.

Flexor digitorum longus accessorius in the club foot of an infant with Nager syndrome

The case of a male infant is reported who had club foot on the right side and pes adductus on the left side in combination with acrofacial dysostosis; he also demonstrated preaxial anomalies of the upper limbs indicative of Nager syndrome. In addition, an unusual aberrant muscle was discovered during surgical correction of the right club foot.