The structure of gap junctions in osteoblast-like cells (OBs) and the connexins (cx) that build up these structures were characterized by ultrastructural, immunocytochemical, and molecular techniques. Ultrastructural studies revealed numerous gap junctions which were mostly located on processes of neighboring cells. Immunofluorescence labeling using two different antibodies (specific to mouse live cx26 and cx32 and to a peptide-specific rat heart gap junction protein cx43) gave evidence that in OBs, gap junctions consist mainly of cx43. The presence of cx43 in cultured OB was also confirmed by Western blot analysis. Dye-coupling with Lucifer yellow led to a staining of up to 30 neighboring cells. Parallel intracellular recordings showed that membrane potential amplitude changes (4-5 mV) are typically related to those in the coupled cells. Thus, there is morphological and functional evidence for intercellular communication between OB in culture. OBs in culture express the same connexins as observed in vivo and may serve as a model to investigate electrophysiological events in response to different stimulation signals.
The present study investigated the effects of elevated cytoplasmic free calcium concentrations ([Ca2+]i) on the permeability of gap junctions between cultured osteoblast-like (OB) cells derived from calvarial and periosteal fragments of newborn rats. This was studied using the double whole cell patch clamp technique and intracellular dye injections. To increase [Ca2+]i, patch pipette solutions contained 100 micromol/liter Ca2+. About 1-2 minutes after whole cell modes had been attained, the total number of gap junction channels was reduced from an average of 400 in normal Ca2+ to 20 in high Ca2+. Thereafter, remaining gap junction channels were active for up to 8 minutes. In normal rat kidney (NRK) cells, gap junction channels were closed by high Ca2+ within 1 minute, pointing to a similar sensitivity of Connexin43 gap junction channels in OB and NRK cells. To study the effects of elevated [Ca2+]i on the dye permeability of gap junctions between extended OB cells, the spread of Lucifer Yellow to neighboring cells was evaluated. [Ca2+]i was gradually increased from 1.5- to 14-fold the normal value by application of either ouabain, Na+-free/ouabain, or A23187. Reduced dye spread correlated with the increase of [Ca2+]i measured by analyzing the fluorescence of fura-2. These data show that gap junctions in OB cells are sensitive to Ca2+.
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