Syntaxin-3 and syntaxin-1A inhibit L-type calcium channel activity, insulin biosynthesis and exocytosis in beta-cell lines

Y Kang, X Huang, EA Pasyk, J Ji, GG Holz… - Diabetologia, 2002 - Springer
Y Kang, X Huang, EA Pasyk, J Ji, GG Holz, MB Wheeler, RG Tsushima, HY Gaisano
Diabetologia, 2002Springer
Abstract Aims/hypothesis Syntaxin-1A (Syn-1A) is known to play a negative regulatory role
in insulin secretion but the precise mechanisms for its action are not clear. Syn-2,–3 and–4
are also present in islet beta cells but their functions are not known. Here, we investigated
the role of these syntaxins in the insulin secretory process. Methods We examined the
following effects of Syn-1,–2,–3 and–4 expression in insulinoma beta-cell lines.
Endogenous insulin secretion was measured by batch radioimmunoassay (RIA) and single …
Aims/hypothesis
Syntaxin-1A (Syn-1A) is known to play a negative regulatory role in insulin secretion but the precise mechanisms for its action are not clear. Syn-2, –3 and –4 are also present in islet beta cells but their functions are not known. Here, we investigated the role of these syntaxins in the insulin secretory process.
Methods
We examined the following effects of Syn-1, –2, –3 and –4 expression in insulinoma beta-cell lines. Endogenous insulin secretion was measured by batch radioimmunoassay (RIA) and single cell patch clamp capacitance measurements. The l-type Ca2+ channel activity was studied by patch clamp electrophysiology. Insulin gene transcription was examined by Northern blotting and measurement of insulin gene promoter activity by the co-expression of cyan fluorescent protein-labelled rat insulin promoter.
Results
Syn-1A or –3, but not Syn-2 or –4 overexpression, inhibited K+-induced insulin release as determined by RIA (49.7 ± 5.5 % and 49.1 ± 6.2 %, respectively) and electrophysiologic membrane capacitance measurements (68.0 ± 21.0 % and 58.0 ± 13.2 %, respectively). Overexpressed Syn-1A and –3, but not Syn-2, inhibited Ca2+ channel current amplitude by 39.5 ± 11.6 % and 52.7 ± 6.0 %, respectively. Of note, overexpression of Syn-1A and –3 also reduced single cell (by confocal microscopy) and total cellular endogenous insulin content (by RIA) by 24.8 ± 4.2 % and 31.8 ± 3.9 %, respectively. This correlated to a reduction in endogenous insulin mRNA by 24.5 ± 4.2 % and 25.7 ± 4.2 %, respectively. This inhibition of insulin biosynthesis is mainly at the level of insulin gene transcription as demonstrated by an inhibition of insulin gene promoter activity (53.3 ± 9.15 % and 39.0 ± 6.8 %, respectively).
Conclusions/interpretation
These results demonstrate that Syn-1A and –3 possess strong inhibitory actions on both insulin exocytosis and insulin biosynthesis whereas Syn-2 and –4 do not inhibit the insulin secretory process. [Diabetologia (2002) 45: 231–241]
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