Publications

This paper describes and compares 2 random-digit dialing (RDD) methods that have been used to select minority subjects for population-based research. These methods encompass the census-based method, which draws its primary sampling units from census tracts with a high proportion of minority persons, and the registry-based method, which derives its primary sampling units from a population-based cancer registry. Our study targeted Filipinos living in 10 Northern California counties, where they constitute 4% of the total population. Eligible participants (Filipina women, at least aged 20, who spoke 1 of 4 interview languages) were asked to complete a short telephone interview. Both the census and registry methods located Filipino households with comparable efficiency and with a higher yield than would be expected in a non-targeted population survey, such as the Mitofsky-Waksberg RDD method. No systematic pattern of responses was evident that would indicate that either method sampled women who were systematically less acculturated or less likely to use cancer screening tests. Although both methods offer substantial gains in efficiency, their utility is limited by generating samples that tend to over-represent high-density areas. The degree to which these methods are considered viable depends on further refinement to limit, or eliminate, their inherent selection biases without sacrificing their increased efficiency to locate minority populations.

Ferredoxin, Fd, is often deficient in metronidazole-resistant strains of Trichomonas vaginalis and is thought to be necessary for drug activation. To directly test whether Fd is essential for metronidazole susceptibility, gene replacement technology has been developed for T. vaginalis. The selectable marker gene neomycin phosphotransferase (NEO) flanked by approximately 2.6 and approximately 2.0 kBp of the Fd 5' and 3' flanking regions (pKO-FD-NEO) was introduced into cells on linear DNA and selected for NEO gene expression. Stable transformants were shown to contain the NEO gene in the Fd locus and to have completely lost the Fd gene. Northern and immunoblot analyses confirm the loss of Fd mRNA and protein in pKO-FD-NEO cells. Analyses of the activity of hydrogenosomal proteins in Fd KO cells show a fourfold increase in hydrogenase activity and a 95% decrease in pyruvate/ferredoxin oxidoreductase (PFO) activity. In contrast, PFO and hydrogenase mRNA levels are unchanged. Surprisingly, Fd KO cells are not resistant to metronidazole under aerobic or anaerobic conditions. These cells are capable of producing molecular hydrogen, albeit at 50% the level of the parental strain, demonstrating that the Fd gene product eliminated in KO cells is neither necessary for hydrogen production nor metronidazole activation. Together these data indicate the presence of unidentified Fds or flavodoxins capable of drug activation or an unidentified mechanism that does not require either PFO or Fd for metronidazole activation.

UNLABELLED

Deficiency of the signaling adapter protein DAP12 is associated with bony abnormalities in both mice and humans. We identify specific DAP12-associated receptors expressed by osteoclasts and examine function of DAP12 in murine osteoclasts in vivo and in vitro. These data show a new role for DAP12 signaling in regulating formation of multinucleated osteoclasts.

INTRODUCTION

Osteoclasts are bone-resorbing cells derived from hematopoietic precursors in the myeloid lineage. In other myeloid cell types, the signaling adapter protein DAP12 transmits activating signals on ligation of a DAP12-associated receptor (DAR). The aim of this study was to clarify the role of DAP12 signaling during osteoclast development.

MATERIALS AND METHODS

Osteoclasts from DAP12 -/- or control mice were analyzed in vitro for morphology, function, and for osteoclast markers. DARs were identified in osteoclast cultures through reverse transcriptase-polymerase chain reaction (RT-PCR). Bone density of DAP12 -/- and control mice were analyzed by microcomputed tomography. DAP12 -/- osteoclasts were retrovirally reconstituted with DAP12. RAW264.7 cells were transfected with FLAG-tagged DAP12 or TREM2 and stimulated by anti-FLAG antibody during in vitro osteoclastogenesis.

RESULTS

C57BL/6 DAP12-deficient mice have higher bone mass than C57BL/6 wildtype controls. We verified the presence of DAP12 in pre-osteoclasts and osteoclasts derived from C57BL/6 or the pre-osteoclast line RAW 264.7 and identified the DARs expressed. DAP12 -/- osteoclasts developed in vitro with macrophage colony-stimulating factor (M-CSF) and RANKL formed only intensely TRACP+ mononuclear cells and failed to generate multinuclear osteoclasts. These mononuclear cells are functional osteoclast-like cells because, by RT-PCR, they express other osteoclast markers and generate resorption pits on dentine slices, although quantitative assessment of bone resorption shows decreased resorption by DAP12 -/- osteoclasts compared with C57BL/6 osteoclasts. Restoration of DAP12 expression by retroviral transduction of DAP12 -/- osteoclast precursors rescued in vitro osteoclast multinucleation. Direct stimulation of DAP12 expressed in RAW264.7 during in vitro osteoclastogenesis led to a marked increase in the number of TRACP+ multinucleated osteoclast-like cells formed.

CONCLUSION

Our studies indicate that stimulation of the DAP12 adapter protein plays a significant role in formation of multinuclear osteoclasts and that DAP12 and DARs likely participate in the regulation of bony remodeling.