Jc. Bryant et al., Methylated C-terminal leucine residue of PP2A catalytic subunit is important for binding of regulatory B alpha subunit, BIOCHEM J, 339, 1999, pp. 241-246
Methylation of the C-terminal leucine residue (Leu(309)) of protein serine/
threonine phosphatase 2A catalytic subunit (PP2A(c)) is known to regulate c
atalytic activity in vitro, but the functional consequence(s) of this post-
translational modification in the context of the cell remain unclear. Alkal
i-induced demethylation of PP2A(c) in purified PP2A heterotrimer (AB alpha
C), but not in purified PP2A heterodimer (AC), indicated that a larger frac
tion of PP2A, is carboxymethylated in ABaC than in AC. To explore the role
of Leu(309) in PP2A holoenzyme assembly, epitope-tagged PP2A catalytic subu
nit (HA-PP2A) and a mutant of IIA-PP,A containing an alanine residue in pla
ce of Leu309 (HA-PP2A-L309A) were transiently expressed in COS cells. Both
recombinant proteins exhibited serine/threonine phosphatase activity when i
mmunoisolated from COS cell extracts. HA-PP2A, but not HA-PP2A-L309A, was c
arboxymethylated ii? vitro. A chromatographic analysis of cell extracts ind
icated that most endogenous PP2A(c) and HA-PP2A were co-eluted with the A a
nd Ba regulatory subunits of PP2A, whereas most HA-PP2A-L309A seemed to elu
te with the A subunit as a smaller complex or, alternatively, as free catal
ytic (C) subunit. The A subunit co-immunoisolated with both tagged proteins
; however, substantially less B alpha subunit co-immunoisolated with HA-PP2
A-L309A than with HA-PP2A. These results demonstrate that the reversibly me
thylated C-terminal leucine residue of PP2A, is important for B alpha regul
atory subunit binding. Furthermore, the results provide evidence for an int
errelationship between PP2A(c), carboxymethylation and PP2A holoenzyme asse
mbly.