Abstract
It has been reported that there are two alternatively spliced variants of phospholipase C-delta4 (PLCdelta4), termed ALT I and II, that contain an additional 32 and 14 amino acids in their respective sequences in the linker region between the catalytic X and Y domains (Lee, S. B., and Rhee, S. G. (1996) J. Biol. Chem. 271, 25-31). We report here the isolation and characterization of a novel alternative splicing isoform of PLCdelta4, termed ALT III, as a negative regulator of PLC. In ALT III, alternative splicing occurred in the catalytic X domain, i.e. 63 amino acids (residues 424-486) containing the C-terminal of the X domain and linker region were substituted for 32 amino acids corresponding to the insert sequence of ALT I. Although the expression level of ALT III was found to be much lower in most tissues and cells compared with that of PLCdelta4, it was significantly higher in some neural cells, such as NIE-115 cells and p19 cells differentiated to neural cells by retinoic acid. Interestingly, recombinant ALT III protein did not retain enzymatic activity, and the activity of PLCdelta4 overexpressed in COS7 cells was markedly decreased by the co-expression of ALT III but not by ALT I or II. Moreover, N-terminal pleckstrin homology domain (PH domain) of ALT III alone could inhibit the increase of inositol-1,4, 5-trisphosphate levels in PLCdelta4-overexpressing NIH3T3 cells, whereas a PH domain deletion mutant could not, indicating that the PH domain is necessary and sufficient for its inhibitory effect. The ALT III PH domain specifically bound to phosphatidylinositol (PtdIns)-4,5-P2 and PtdIns-3,4,5-P3 but not PtdIns, PtdIns-4-P, or inositol phosphates, and the mutant R36G, which retained only weak affinity for PtdIns-4,5-P2, could not inhibit the activity of PLCdelta4. These results indicate that PtdIns-4,5-P2 binding to PH domain is essential for the inhibitory effect of ALT III. ALT III also inhibited PLCdelta1 activity and partially suppressed PLCgamma1 activity, but not PLCbeta1 in vitro; it did inhibit all types of isozymes tested in vivo. Taken together, our results indicate that ALT III is a negative regulator of PLC that is most effective against the PLC delta-type isozymes, and its PH domain is essential for its function.
Highlights
The Phospholipase C (PLC) family is comprised of 10 subtypes found in mammalian species, and on the basis of their structure, they have been divided into three classes,  (1– 4), ␥ (␥1 and 2), and ␦ (␦1– 4) types [4]
Isolation of ALT III, a Novel Alternatively Spliced Variant of phospholipase C-␦4 (PLC␦4) —PLC␦4 is an enzyme that is inducible in response to mitogenic stimuli, and its expression is restricted in several tissues and cells [30]
ALT III protein was highly expressed in some neural cells (Fig. 2C), indicating that it exists in living cells and is not an artifact obtained by PCR
Summary
The PLC family is comprised of 10 subtypes found in mammalian species, and on the basis of their structure, they have been divided into three classes,  (1– 4), ␥ (␥1 and 2), and ␦ (␦1– 4) types [4]. More recent studies indicate that the PtdIns-3,4,5-P3 binding to the PH domain is involved in the protein tyrosine kinase-independent activation of PLC␥1. SH2-containing inositol-5Ј-phosphatase functions as a negative regulator of PLC␥1 by inhibiting PtdIns-3,4,5-P3-dependent activation, at least in B cells. CAMP-dependent protein kinase directly phosphorylates the serine residues of PLC2 and -3 and inhibits the stimulation of their activity by G␥ or G␣q, respectively [17, 18]. ALT III inhibited the activity of PLC␦ most effectively among the PLC isozymes in vivo and in vitro. This is the first demonstration of a negative regulator of PLC ␦-type isozymes
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