- Email: [email protected]
Negative signaling in B cells: SHIP Grbs Shc
IMMUNOLOGY
Tf)DAY
egative signaling in B cells: SHIP Grbs She Susheela Tridandapani, Todd Kelley, Damon
Cooney, Madhura Pradhan
and K. Ma& Coggeshall Negotiue sigtznlr~~girz B cells IS
ofrlic
rrritinfed by/ cc-crosslinking
mtrgtw receptor receptor, resultrq
md the Fey in ces_dio,r
of
B-celisipfiq tmfzfsma?,ii1 signaling
events
in pmliferation
and
antigen-specific
Ig. The activation
is regxdated interaction
sarehan
at several of B 4s
lymphokines ation
and
with
that promote
dntigen-specitic
pressive
of B-cell aclivahon:
secretion
and bear a” intact
suppressive
effect of soluble
antibodies
the Fq receptor support
Ig (reviewed qnaIing
with FqRII
indicate
that it
xtivation
negative Ig must
signahng. and
The observation
A (Ref. 5) established signaling.
signaling
by miuble,
physiological
positive nistic
anhgn-sp+xIftc
pmcess
probably
or anti-idiotyprc
BCR, implying
signaling model
ccqxxates
Following
datting,
protein
7AP-7O/Syk
pnorytate
anhgen
tymsine
and then outline a mecha-
of negative exiting
qnaling
new
that in-
findings
into
the
k”owh?dge.
several
fzmihs
Once
pmteins,
which **en ass&ate
that serves to prevent
activated,
these
activate
those of the Src enzymes
phos-
n”ncovaIentIy
via
WIW, SH3 and plecksbin-homology
(PHJ domain&‘“.
PTK sub-
anti-Fc-
strates t” lymphocytes
with a consened
sequence of
lend
of src-homology
a”li”o aads
2 (SH2).
include pmte’ti
Ig to suppress
pears to act as a scat%Id for a multilayered
F&II
signaling
is a
excess Ig production.
inductmn
When phosphorylated
biochemical
of “ascent gene expressIon proteins
subunits
activation of antigen
tp
on k-y tymsine resrdues, the ITAM ap-
The SH2domain-contaiiing sgxaling
ty”al&ased
found in signaling
ceptas.
in D;U~
phosphotyrosine-bmdiig
know” as the i”l”“moreceptor
mobf (ITAM) CR& ll-13).
the BCR 1s C(F
occurs
of lymphocytes
that the a role for
Ig crosslinks
that negahve
receptors
Iunases WTKs), SpecificaIIy
te”x that activate sawaI
and the antigen-bound
bn-
are dear, its
interactions
These hndmgs
in which
of the BCR and FqRII
when secreted antigen-specific
the effects and
sigttafing
specific
pmduction.
Co-cmssIIIng
While
Positive signaling several and
PXIVZ-
bind
Ig was blodced by neutralizing
in negative
and
in Ref. I). This sup
by PhdIips
Fc domain.
and by protein
(F&II)
mice,
role expwinwnts
suppressive
to a model of negative
cmsslinked antibody
soluble,
anti-Fc
FcyRII-deficient
of negative
b&y of existing
Ig has been termed
on “egahve that
of
flctiitntiorz I)I B cells.
to anhgen-triggered
of “ascent
effect of soluble
portance
secreted,
less responsive
Eariy studies
receptor
Siirly,
on
biochtical basis is not well understood. Thii arti& wiiI first describe key events in
proteins thnt lend to Rm
Ig-secreting
Ig plays a” important
B 4s
demonstrated antigen
of
is po-
by an autoimmune
and
IgG anhMi&.
for
She with the GrbZ-Sos complex
T c&s,
B-cell pmIiferinto
B &Is.
~II the regxdahon subsequent
helper
role 1s proposed
on rheumatoid signaling
which exhl%it an increase in antigenqwxific
SHIP irr blocking the ivteructior; of
the
negative
antibodyh
mtibody secretion. Here, LI
cornpeltfrve
pmclzss
and _cretion
differentiation
c&I or memory
renders
of soluble
IeveIs, in&ding
as well as the fornation
od
that result
by studies
in which
te”tiaIIy blocked
twn,hrhibiting B-cell prolifemtim duces positive
This IS supported arthritis
that are found
with ITAMS (Refs M-17). Although
assembly of signaling
pathways,
cubninating
pm in the
and entry into the c&I cyde.
adaptor directly
pmt.zin She is among or indirectIy
details of Ras activahon
the
complrxed in BceIIs
P i: 1‘,*=“011 11
are lack&.
membrane
recmitment
and subsequent
phosphoryl-
ation of She at tyrosine residues Y239, YWJ or Y317 (Ref. 18) m SW-
’
(a)
Fe@ piTiM
I
SHIP
She
era1 cell activation models promotes the association of the CrbZ-SOS complex of proteins which, in turn, catalyzes (Ref. 19). Triggering
of the BCR on 6 c&s
to induce
phosphorylation
This
tymsine
protein
has
recently
domainiontaining with a “lrmber
the activahon of Xas
I-as also been reported
of a -145
been
identified
inositol polyphosphate of stmch”aI
feature
kDa
protcin’J2’.
as a novel
SH2-
5phosphatase
suggesting
(SHIP)
interactions
with
I
other proteins, including hvo NPxY motifs; when phosphotyhted, these mot& act as Iigands for l’fB domains’2-Z’. SHIP occurs in
that appear
three forms - ~145 p13S and pIlO tivc splicing
of a single mRNA transcript2’.
forms contain
a” N-taninal
SHIP has bee” repotted of mammalian
to be complexed
celIs with various
SHIP I” signal transduction memIx
cytokln&~.
eff&
athough
is not known. kly
to1 1,4,5trisphosphate suggeshng
phosphatase
naling
events
associated with
located
experiments
signe!iog.
by cwligation
a qumxnent
in a” show”
that
proposed
of FqRll
InhIbihon
that negative
(Ref. 31). It has SH2domain-
from the mouse
by co-crosslinking
strain
results
is required
Consequently,
from
to
of FcyRIl and
that SHP-1 expression
of SHIP (see above) and its association
phosphorylation
3oth events were blocked by pre-treamtent
known
I” SHP-I, were show”
of B-cell achvation.
signahng
motif
(SHP-I; previously
defiaent
signal triggered
the BCR (Ref. 32). suggesting
have
of Y309
inhibition
ITIM binds
B cells derived
rno~1wzztnr,which are geneticaIIy lack the Inhibitory
phosphoqlation
do-
phosphataw
as PTPICkQ. Forthennore.
pn sig-
of the BCR and FqRII
the phosphorylated
phosphotymsine
FcyRll-ma&ted
C !PLC) activity repre-
tyroGn&awI
(ITIMJ’2 wxthtn the Intracellular been
containing
for this
More recent studies
for tyrosme
bnnwnoreceptor
mechanism
reported inhibition of inosi-
formation and caldum tlw?=‘,
of phospholfpaw
of negative
initiated
demonshated
effects on Ras for this appar-
fanxiI~“2x.
the biochemicJ
[lns(1,4~)P:
that izbition
sents one outcomt
The role played by
have been proposed
of the inmitol
conditions,
pIlO does not2l.
with She upon stimulaho”
is signalilg
while
IS not yet known, although
activity and phosphatidyIinosito1 entty unique
to arise by altema-
Thus, the ~145 and ~135
SH2 domain,
for
it was
ITlM phosphoryl-
monoclonal
antibody,
the induction
indicating
of these events.
gard mdlcated
that FqRll
while transfection
and SHIP-She
that SHIP, in addition
to SHP-I, might
signaling
into the LKR slgnahng
complex
posed that the catalytic
activity
conhibution
sigrabng.
have
demonstrated
phosphorylated promote
Im(1,4,5)P,
rapid
concept,
sip”.&@,
recent
de-phosphorylation
PLCy2 in B cells stimulated
negative
is a substrate for previous
the
of this
suggesting
under
stud&
of tyrosint~ conditions
the possibility
that
that PLCy2
for SHP-I. This finding also provider. an explanation observatiom
demonstrating
IeveIs in B celIs activated
the transient
under
elevahon
of
aim&w co”dltionr4”.
by blnding
interactions
role in negative of Ras activity
signaling observed
The molecular
negative
but not positive
signaling
3hhave revealed
condxhons promoted
that
tyrosine
SH2 dolnain
Here, it 1s further
negative
and 1s potentially
phosphorylation She contains
act as ligands
SEPTEMBER
that active
(see below). between
SHIP
complex.
Al-
on She are known’, one SH2 domain
Two of the three forms of SHIP contain would
for its
suggested
in part for the reduchon signahng
the interaction
and al1 three forms encode
phospholy!ated,
ITIM and by recmihnent
to exert its effects. It was also pm-
and may account during
the sites of tymsinr
one PTl3 domam.
from several IaburatoriesU
monsti-
of SHIP may be responstble
basis underlying
and She is not well understood
in negative signaling
F&II
of SHIP may piay a” equally
the site(s) on SHIP are unknown. R.xe”t experiments
upon activation,
play a key role in negative
the phosphorylated
to negative
the noncovalent
though SHIP
interaction
of lIA1.6 with cDNA encodmg
speahc
In support
in this re-
IlA1.6 B cells did not undergo
toted bath events-“. On the basis of these results, i! was pmposed”
ation, induced by co-ligation of the EKE and FcyRll, and leading to remitment and biding of SHP-I, which then dephosphorylates substrates.
played a critical role in
Indeed, recent experiments
that FqRlldeficient
SHIP phosphorylation
with She.
of cells with anti-FqRll
and
a single
two NPxY sites that, when for PTB domains.
Indeed,
I997
IMMUNOLOGY
/’
Positive
TODAY
~rgnalmg residue
of She. I” any case, a role for the
SH2 domain terxbo”
of SHIP in the SHIP-She
iyils reported
of lnterleukl” Similarly,
3 (IL-3)sbmul&d
experiments
t
a r”le both
binding
paradigm
expenments triggering
to phos-
in T cells respondmg have indicated
mteraction mai”
bmdmg
SHIP,
She (Ref 40). Bv contrast,
phorvlated
+ MEK
have
for the She PTB de
to NPxY motifs within
and the SHIP SH2 domam,
Raf
celis~-“.
using the B cell posi-
hve- and negatives~gnaling in&cated twin,
mwlwd
Thus. the precise
the SHIP SH2 doma”?.
mode of the SHIP-She
may depend
tem under
the She PTB do
the NPxY motif of SHIP
and &d not “wolve terxtion
recent to CD3
that the SHIP-She
only
recognizing
in-
in hvo recent studies
study, the stoichiomehy
phosphorylation,
in-
on the signaling
other
protein
sys-
of SHIP
interactions
of SHIP and She, and ‘or other unknown ramelrs. ditions
Nevertheless, of negative
pa-
in B cells under con-
sigtlaling,
the SHZ do-
mams of both Grb? and SHIP are able to bind phosphc-She,
which raises the possibiity
one may bind to thv exdusion
Recent experiments tivity
under
in 6 cells have demonstrated
negative
sigraling
conditions”.
tion of Raf-1, a serine/thrwnine
k&se
hve signaling
condlhons.
both dnu?s+-m restored
upon
rqative reduchon earlier
under
condit;Lns
the Ras pathway
ho” of the SH2 domains (Frg. 2). A mwkl
direct competition
can only involve
Whde ihe competihon from
ative stgnahng frog oocytes
model
several
for the reduced cannot
be excluded.
lion of a catalyrically
deficient
bebpen
of She
SI-hP and
forms of the erqme.
other
above
potential
For example,
is supported influences
of the Ras pathway
that microinjection
insulin-mduced
during
to “eg-
recent studies of catalytically
iXK activity,
of ac-
while mrroinjec-
form oL SHIP did not+‘; this suggests
a potenhal mIe for SHIP enz)rmatic acta\ & m bixking 5HP-1 may contribute
with
reduction
the 145 or 135 kl;z forms of
summarized
sourclfs.
activation
have indicated
tive SHIP block&
together
may be due to competi-
SHIr s111cethese are the SH2-donvdn-contai”ing by findings
and a concomitant
that the obsewxl
signaling
was
Similarly,
m SHIP phos-
of SHIP and Grb2 for phosphoryiated
involvmg
Grb2 for phospho-She
account
anhbcdy.
These findmgs,
the ““ho6
of Ras and
co-cmsslinking
anti-FqRII
led to a” increase
negative
but not posi-
the rnduchon
BCR-F-R
intewtion”.
during
downstream
kinase downsheam negahve
higher lewls of SHIP-She interactron in Shc-GrbZ
datrZ-‘“, support
Ras ac-
the induc-
immediately
under
Furthemmre.
ktnases
ti.m use of blochng
signaling
phorylation,
reduced
reduced
Siiilarly,
of Ras (Ref. 42) and of ERK. a serine/threonine of Raf (Ref. 433). was greatly
that
of the other.
to the block tn Ras induchon
Ras inductIon. during
negative
IMMUNOLOGY
TODAY
Tf)DAY
egative signaling in B cells: SHIP Grbs She Susheela Tridandapani, Todd Kelley, Damon
Cooney, Madhura Pradhan
and K. Ma& Coggeshall Negotiue sigtznlr~~girz B cells IS
ofrlic
rrritinfed by/ cc-crosslinking
mtrgtw receptor receptor, resultrq
md the Fey in ces_dio,r
of
B-celisipfiq tmfzfsma?,ii1 signaling
events
in pmliferation
and
antigen-specific
Ig. The activation
is regxdated interaction
sarehan
at several of B 4s
lymphokines ation
and
with
that promote
dntigen-specitic
pressive
of B-cell aclivahon:
secretion
and bear a” intact
suppressive
effect of soluble
antibodies
the Fq receptor support
Ig (reviewed qnaIing
with FqRII
indicate
that it
xtivation
negative Ig must
signahng. and
The observation
A (Ref. 5) established signaling.
signaling
by miuble,
physiological
positive nistic
anhgn-sp+xIftc
pmcess
probably
or anti-idiotyprc
BCR, implying
signaling model
ccqxxates
Following
datting,
protein
7AP-7O/Syk
pnorytate
anhgen
tymsine
and then outline a mecha-
of negative exiting
qnaling
new
that in-
findings
into
the
k”owh?dge.
several
fzmihs
Once
pmteins,
which **en ass&ate
that serves to prevent
activated,
these
activate
those of the Src enzymes
phos-
n”ncovaIentIy
via
WIW, SH3 and plecksbin-homology
(PHJ domain&‘“.
PTK sub-
anti-Fc-
strates t” lymphocytes
with a consened
sequence of
lend
of src-homology
a”li”o aads
2 (SH2).
include pmte’ti
Ig to suppress
pears to act as a scat%Id for a multilayered
F&II
signaling
is a
excess Ig production.
inductmn
When phosphorylated
biochemical
of “ascent gene expressIon proteins
subunits
activation of antigen
tp
on k-y tymsine resrdues, the ITAM ap-
The SH2domain-contaiiing sgxaling
ty”al&ased
found in signaling
ceptas.
in D;U~
phosphotyrosine-bmdiig
know” as the i”l”“moreceptor
mobf (ITAM) CR& ll-13).
the BCR 1s C(F
occurs
of lymphocytes
that the a role for
Ig crosslinks
that negahve
receptors
Iunases WTKs), SpecificaIIy
te”x that activate sawaI
and the antigen-bound
bn-
are dear, its
interactions
These hndmgs
in which
of the BCR and FqRII
when secreted antigen-specific
the effects and
sigttafing
specific
pmduction.
Co-cmssIIIng
While
Positive signaling several and
PXIVZ-
bind
Ig was blodced by neutralizing
in negative
and
in Ref. I). This sup
by PhdIips
Fc domain.
and by protein
(F&II)
mice,
role expwinwnts
suppressive
to a model of negative
cmsslinked antibody
soluble,
anti-Fc
FcyRII-deficient
of negative
b&y of existing
Ig has been termed
on “egahve that
of
flctiitntiorz I)I B cells.
to anhgen-triggered
of “ascent
effect of soluble
portance
secreted,
less responsive
Eariy studies
receptor
Siirly,
on
biochtical basis is not well understood. Thii arti& wiiI first describe key events in
proteins thnt lend to Rm
Ig-secreting
Ig plays a” important
B 4s
demonstrated antigen
of
is po-
by an autoimmune
and
IgG anhMi&.
for
She with the GrbZ-Sos complex
T c&s,
B-cell pmIiferinto
B &Is.
~II the regxdahon subsequent
helper
role 1s proposed
on rheumatoid signaling
which exhl%it an increase in antigenqwxific
SHIP irr blocking the ivteructior; of
the
negative
antibodyh
mtibody secretion. Here, LI
cornpeltfrve
pmclzss
and _cretion
differentiation
c&I or memory
renders
of soluble
IeveIs, in&ding
as well as the fornation
od
that result
by studies
in which
te”tiaIIy blocked
twn,hrhibiting B-cell prolifemtim duces positive
This IS supported arthritis
that are found
with ITAMS (Refs M-17). Although
assembly of signaling
pathways,
cubninating
pm in the
and entry into the c&I cyde.
adaptor directly
pmt.zin She is among or indirectIy
details of Ras activahon
the
complrxed in BceIIs
P i: 1‘,*=“011 11
are lack&.
membrane
recmitment
and subsequent
phosphoryl-
ation of She at tyrosine residues Y239, YWJ or Y317 (Ref. 18) m SW-
’
(a)
Fe@ piTiM
I
SHIP
She
era1 cell activation models promotes the association of the CrbZ-SOS complex of proteins which, in turn, catalyzes (Ref. 19). Triggering
of the BCR on 6 c&s
to induce
phosphorylation
This
tymsine
protein
has
recently
domainiontaining with a “lrmber
the activahon of Xas
I-as also been reported
of a -145
been
identified
inositol polyphosphate of stmch”aI
feature
kDa
protcin’J2’.
as a novel
SH2-
5phosphatase
suggesting
(SHIP)
interactions
with
I
other proteins, including hvo NPxY motifs; when phosphotyhted, these mot& act as Iigands for l’fB domains’2-Z’. SHIP occurs in
that appear
three forms - ~145 p13S and pIlO tivc splicing
of a single mRNA transcript2’.
forms contain
a” N-taninal
SHIP has bee” repotted of mammalian
to be complexed
celIs with various
SHIP I” signal transduction memIx
cytokln&~.
eff&
athough
is not known. kly
to1 1,4,5trisphosphate suggeshng
phosphatase
naling
events
associated with
located
experiments
signe!iog.
by cwligation
a qumxnent
in a” show”
that
proposed
of FqRll
InhIbihon
that negative
(Ref. 31). It has SH2domain-
from the mouse
by co-crosslinking
strain
results
is required
Consequently,
from
to
of FcyRIl and
that SHP-1 expression
of SHIP (see above) and its association
phosphorylation
3oth events were blocked by pre-treamtent
known
I” SHP-I, were show”
of B-cell achvation.
signahng
motif
(SHP-I; previously
defiaent
signal triggered
the BCR (Ref. 32). suggesting
have
of Y309
inhibition
ITIM binds
B cells derived
rno~1wzztnr,which are geneticaIIy lack the Inhibitory
phosphoqlation
do-
phosphataw
as PTPICkQ. Forthennore.
pn sig-
of the BCR and FqRII
the phosphorylated
phosphotymsine
FcyRll-ma&ted
C !PLC) activity repre-
tyroGn&awI
(ITIMJ’2 wxthtn the Intracellular been
containing
for this
More recent studies
for tyrosme
bnnwnoreceptor
mechanism
reported inhibition of inosi-
formation and caldum tlw?=‘,
of phospholfpaw
of negative
initiated
demonshated
effects on Ras for this appar-
fanxiI~“2x.
the biochemicJ
[lns(1,4~)P:
that izbition
sents one outcomt
The role played by
have been proposed
of the inmitol
conditions,
pIlO does not2l.
with She upon stimulaho”
is signalilg
while
IS not yet known, although
activity and phosphatidyIinosito1 entty unique
to arise by altema-
Thus, the ~145 and ~135
SH2 domain,
for
it was
ITlM phosphoryl-
monoclonal
antibody,
the induction
indicating
of these events.
gard mdlcated
that FqRll
while transfection
and SHIP-She
that SHIP, in addition
to SHP-I, might
signaling
into the LKR slgnahng
complex
posed that the catalytic
activity
conhibution
sigrabng.
have
demonstrated
phosphorylated promote
Im(1,4,5)P,
rapid
concept,
sip”.&@,
recent
de-phosphorylation
PLCy2 in B cells stimulated
negative
is a substrate for previous
the
of this
suggesting
under
stud&
of tyrosint~ conditions
the possibility
that
that PLCy2
for SHP-I. This finding also provider. an explanation observatiom
demonstrating
IeveIs in B celIs activated
the transient
under
elevahon
of
aim&w co”dltionr4”.
by blnding
interactions
role in negative of Ras activity
signaling observed
The molecular
negative
but not positive
signaling
3hhave revealed
condxhons promoted
that
tyrosine
SH2 dolnain
Here, it 1s further
negative
and 1s potentially
phosphorylation She contains
act as ligands
SEPTEMBER
that active
(see below). between
SHIP
complex.
Al-
on She are known’, one SH2 domain
Two of the three forms of SHIP contain would
for its
suggested
in part for the reduchon signahng
the interaction
and al1 three forms encode
phospholy!ated,
ITIM and by recmihnent
to exert its effects. It was also pm-
and may account during
the sites of tymsinr
one PTl3 domam.
from several IaburatoriesU
monsti-
of SHIP may be responstble
basis underlying
and She is not well understood
in negative signaling
F&II
of SHIP may piay a” equally
the site(s) on SHIP are unknown. R.xe”t experiments
upon activation,
play a key role in negative
the phosphorylated
to negative
the noncovalent
though SHIP
interaction
of lIA1.6 with cDNA encodmg
speahc
In support
in this re-
IlA1.6 B cells did not undergo
toted bath events-“. On the basis of these results, i! was pmposed”
ation, induced by co-ligation of the EKE and FcyRll, and leading to remitment and biding of SHP-I, which then dephosphorylates substrates.
played a critical role in
Indeed, recent experiments
that FqRlldeficient
SHIP phosphorylation
with She.
of cells with anti-FqRll
and
a single
two NPxY sites that, when for PTB domains.
Indeed,
I997
IMMUNOLOGY
/’
Positive
TODAY
~rgnalmg residue
of She. I” any case, a role for the
SH2 domain terxbo”
of SHIP in the SHIP-She
iyils reported
of lnterleukl” Similarly,
3 (IL-3)sbmul&d
experiments
t
a r”le both
binding
paradigm
expenments triggering
to phos-
in T cells respondmg have indicated
mteraction mai”
bmdmg
SHIP,
She (Ref 40). Bv contrast,
phorvlated
+ MEK
have
for the She PTB de
to NPxY motifs within
and the SHIP SH2 domam,
Raf
celis~-“.
using the B cell posi-
hve- and negatives~gnaling in&cated twin,
mwlwd
Thus. the precise
the SHIP SH2 doma”?.
mode of the SHIP-She
may depend
tem under
the She PTB do
the NPxY motif of SHIP
and &d not “wolve terxtion
recent to CD3
that the SHIP-She
only
recognizing
in-
in hvo recent studies
study, the stoichiomehy
phosphorylation,
in-
on the signaling
other
protein
sys-
of SHIP
interactions
of SHIP and She, and ‘or other unknown ramelrs. ditions
Nevertheless, of negative
pa-
in B cells under con-
sigtlaling,
the SHZ do-
mams of both Grb? and SHIP are able to bind phosphc-She,
which raises the possibiity
one may bind to thv exdusion
Recent experiments tivity
under
in 6 cells have demonstrated
negative
sigraling
conditions”.
tion of Raf-1, a serine/thrwnine
k&se
hve signaling
condlhons.
both dnu?s+-m restored
upon
rqative reduchon earlier
under
condit;Lns
the Ras pathway
ho” of the SH2 domains (Frg. 2). A mwkl
direct competition
can only involve
Whde ihe competihon from
ative stgnahng frog oocytes
model
several
for the reduced cannot
be excluded.
lion of a catalyrically
deficient
bebpen
of She
SI-hP and
forms of the erqme.
other
above
potential
For example,
is supported influences
of the Ras pathway
that microinjection
insulin-mduced
during
to “eg-
recent studies of catalytically
iXK activity,
of ac-
while mrroinjec-
form oL SHIP did not+‘; this suggests
a potenhal mIe for SHIP enz)rmatic acta\ & m bixking 5HP-1 may contribute
with
reduction
the 145 or 135 kl;z forms of
summarized
sourclfs.
activation
have indicated
tive SHIP block&
together
may be due to competi-
SHIr s111cethese are the SH2-donvdn-contai”ing by findings
and a concomitant
that the obsewxl
signaling
was
Similarly,
m SHIP phos-
of SHIP and Grb2 for phosphoryiated
involvmg
Grb2 for phospho-She
account
anhbcdy.
These findmgs,
the ““ho6
of Ras and
co-cmsslinking
anti-FqRII
led to a” increase
negative
but not posi-
the rnduchon
BCR-F-R
intewtion”.
during
downstream
kinase downsheam negahve
higher lewls of SHIP-She interactron in Shc-GrbZ
datrZ-‘“, support
Ras ac-
the induc-
immediately
under
Furthemmre.
ktnases
ti.m use of blochng
signaling
phorylation,
reduced
reduced
Siiilarly,
of Ras (Ref. 42) and of ERK. a serine/threonine of Raf (Ref. 433). was greatly
that
of the other.
to the block tn Ras induchon
Ras inductIon. during
negative
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