Ex Parte Lescar et al

Patent Trials and Appeals Board

Apr 9, 2019

14421772 - (D) (P.T.A.B. Apr. 9, 2019)

UNITED STA TES p A TENT AND TRADEMARK OFFICE
APPLICATION NO. FILING DATE FIRST NAMED INVENTOR
14/421,772 02/13/2015 Julien Lescar
500 7590 04/11/2019
SEED INTELLECTUAL PROPERTY LAW GROUP LLP
701 FIFTH A VE
SUITE 5400
SEATTLE, WA 98104
UNITED STATES DEPARTMENT OF COMMERCE
United States Patent and Trademark Office
Address: COMMISSIONER FOR PATENTS
P.O. Box 1450
Alexandria, Virginia 22313-1450
www .uspto.gov
ATTORNEY DOCKET NO. CONFIRMATION NO.
690148.476USPC 9440
EXAMINER
HADDAD, MAHER M
ART UNIT PAPER NUMBER
1644
NOTIFICATION DATE DELIVERY MODE
04/11/2019 ELECTRONIC
Please find below and/or attached an Office communication concerning this application or proceeding.
The time period for reply, if any, is set in the attached communication.
Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the
following e-mail address(es):
USPTOeAction@SeedIP.com
pairlinkdktg@seedip.com
PTOL-90A (Rev. 04/07)
UNITED STATES PATENT AND TRADEMARK OFFICE
BEFORE THE PATENT TRIAL AND APPEAL BOARD
Ex parte JULIEN LESCAR, YEE HWA WONG,
WEI MIN EDMOND CHUA, NGUAN SOON ANDREW TAN,
HAN CHUNG KELVIN CHONG, MING JAE TAN, and
ROYSTON-LUKE HUANG
Appeal2018-007790
Application 14/421, 772
Technology Center 1600
Before ULRIKE W. JENKS, TIMOTHY G. MAJORS, and
MICHAEL A. VALEK, Administrative Patent Judges.
VALEK, Administrative Patent Judge.
DECISION ON APPEAL
Appellants 1 submit this appeal under 35 U.S.C. § 134(a) involving
claims to an antibody that binds C terminal region of angiopoietin like 4
protein. The Examiner rejected the claims as anticipated. We have
jurisdiction under 35 U.S.C. § 6(b ).
1 Appellants identify the real party in interest as Nanyang Technological
University. App. Br. 2. Herein we refer to the Declaration Under 37 CPR
1.132 filed Sept. 11, 2017 ("First Deel."), Declaration Under 37 CPR 1.132
filed Dec. 28, 2017 ("Second Deel."), Final Office Action mailed September
25, 2017 ("Final Act."), Appeal Brief filed April 24, 2018 ("App. Br."),
Examiner's Answer mailed May 21, 2018 ("Ans."), and Reply Brief filed
July 23, 2018 ("Reply").
Appeal2018-007790
Application 14/421,772
We AFFIRM. We further enter a New Ground of Rejection.
STATEMENT OF THE CASE
Claims 1, 2, 15-18, 24 and 25 are on appeal, and can be found in the
Claims Appendix of the Appeal Brief. Claim 1 is the only independent
claim and is representative of the claims on appeal. Claim 1 reads as
follows:
1. An antibody that binds C terminal region of angiopoietin like
4 protein ( cANGPTL4) wherein said antibody comprises a
heavy chain and a light chain, the heavy chain comprising a
VH CDRl, a VH CDR2, and a VH CDR3, and the light chain
comprising a VL CDRl, a VL CDR2, and a VL CDR3,
wherein: said VL CDRl comprises, consists essentially of or
consists of the amino acid sequence of SEQ ID N0:3; said
VL CDR2 comprises, consists essentially of or consists of the
amino acid sequence of SEQ ID N0:4; said VL CDR3
comprises, consists essentially of or consists of the amino
acid sequence of SEQ ID N0:5; said VH CDRl comprises,
consists essentially of or consists of the amino acid sequence
of SEQ ID N0:6; said VH CDR2 comprises, consists
essentially of or consists of the amino acid sequence of SEQ
ID N0:7; and said VH CDR3 comprises, consists essentially
of or consists of the amino acid sequence of SEQ ID N0:8.
App. Br. 13. Appellants do not argue claims 2, 15-18, 24 and 25 separately
so those claims stand or fall with claim 1. 37 C.F.R. § 41.37 (c)(l)(iv).
Appellants filed their appeal brief seeking review of the following
grounds of rejection made by Examiner:
I. Claims 1, 2, 15-18, 24, and 25 under 35 U.S.C. § I02(a)(l) as
anticipated by Tan ("the Tan Rejection")2
2 Nguan Soon Tan et al., WO 2011/0465515 Al published April 21, 2011
("Tan").
2
Appeal2018-007790
Application 14/421,772
II. Claims 1, 2, 24, and 25 under 35 U.S.C. § 102(a)(l) as
anticipated by Zhu ("the Zhu Rejection") 3
App. Br. 2-3. 4 Examiner subsequently withdrew the Tan Rejection in the
Answer. 5 Ans. 4.
The issue is: Does the preponderance of evidence of record support
Examiner's conclusion that Zhu anticipates claims 1, 2, 24, and 25?
Findings of Fact
FF 1. Zhu teaches an antibody that binds C terminal region of angiopoietin
like 4 protein (cANGPTL4) called "mAb 11F6C4." Zhu 405, col. 2. Zhu
teaches that "mAb 11F6C4 was identified and produced for our
immunotherapy experiment based on its superior kon, koff, and KD values, as
determined by surface plasmon resonance (SPR)." Id. (citing Fig. S2E and
Supplemental Experimental Procedures). The Supplemental Experimental
Procedures, 6 published in conjunction with Zhu describe the procedures the
authors followed to generate and screen for anti-cANGPTL4 antibodies,
including mAB 11F6C4, based on certain binding parameters. See Supp.
Info. 14.
3 Pengcheng Zhu et al., Angiopoietin-like 4 Protein Elevates the Prosurvival
Intercellular 02-:H202 Ratio and Confers Anoikis Resistance to Tumors,
Cancer Cell, Vol. 19, 401--415 (2011) ("Zhu").
4 Appellants identify claim 13 as being at issue on appeal (see App Br. 4),
but that claim was withdrawn and is not before us now. Amendment at 2;
see App. Br. 2.
5 Pengcheng Zhu et al., Supplemental Information Angiopoietin-like 4
Protein Elevates the Prosurvival Intercellular 02-:H202 Ratio and Confers
Anoikis Resistance to Tumors, Cancer Cell, Vol. 19 (2011 ), available at
https://ars.els-cdn.com/content/image/1-s2.0-S 1535610811000304-
mmcl .pdf ("Supp. Info.").
3
Appeal2018-007790
Application 14/421,772
FF2. Zhu reports data for various experiments conducted using mAb
11F6C4. See, e.g., Zhu Fig. 2, 3, 7. Zhu teaches that inhibition of
ANGPTL4 with mAb 11F6C4 resulted in "attenuated tumor growth" and
"reduced cell proliferation and enhanced cell apoptosis." Id. 405, col. 2
( citing Fig 2E-2I).
FF3. Appellants are co-authors of the Zhu reference as well as co-inventors
on the Tan PCT application. First Deel. ,r,r 1-2; Second Deel. ,r,r 1-2.
Appellants testify that the mAb 11F6C4 antibody described in Zhu and Tan is
"the same antibody as currently claimed by us." Id. at ,r 7.
FF4. Tan also teaches antibodies that bind cANGPTL4, including "mAb
11F6C4." Tan ,r,r 13, 16, 96, 97, 120. Tan discloses experiments involving
mAb 11F6C4, along with data identifying various properties of mAb
11F6C4. Id. at Figs 2, 4, 6, and 11.
FF5. Tan teaches immunoglobulins ( or antibodies) that are IgG 1 kappa
immunoglobulin. Tan ,r 26. Tan teaches antibodies that comprise a human
IgG 1 constant region within a heavy chain and a human constant region
within a light chain. Id. ,r 27. Tan teaches that these antibodies may comprise
both human and murine framework regions within the variable domains of
the light and heavy chains. Id. ,r,r 28-29. 7
Analysis
Appellants contend that the disclosure in Zhu does not enable one of
skill in the art to practice the claimed subject matter because Zhu does not
disclose the sequence of the mAb 11F6C4 antibody. App. Br. 9. According
to Appellants, the "process by which monoclonal antibodies are produced is
7 FF4 and FF5 relate to the new ground of rejection entered below.
4
Appeal2018-007790
Application 14/421,772
highly variable" and the process taught in Zhu will produce antibodies that
"differ in sequence and specificity ... such that it is virtually a statistical
impossibility that one of ordinary skill in the art, following the process
exactly as outlined in Tan and/or Zhu, would spontaneously generate the
same hybridoma/monoclonal antibody as that produced by the Tan/Zhu"
authors. Id. at 10-11. Appellants further argue that their particular antibody
mAb 11F6C4 "was kept under confidence in their laboratory and was never
made available to any outside investigator prior to filing the present
Application." Id. at 11 (citing First and Second Deel.). Thus, urge
Appellants, Zhu does not allow one of skill in the art to ascertain the specific
sequences recited in Appellants' claims. Id.
Examiner finds that "[m]aking the mAb 11F6C4 antibody is not an
issue" because "Appellant is claiming the same product" taught in Zhu and
the "disclosure of the SEQ ID NOs [in Appellants' application] is mainly
further characterization of otherwise old products." Ans. 7. Examiner
determines that the claimed "sequences for the CDRs [and other structural
properties in Appellants' claims] are intrinsic properties of the mAb 11F6C4
antibody." Final Act. 3. Relying on In re Crish, 393 F.3d 1253 (Fed. Cir.
2004), Examiner determines that Appellants' prior publication of mAb
11F6C4 and a functional description of such in various assays, anticipates
the Appellants' present claims to that antibody. Examiner further notes the
terms and conditions for publication of Zhu required that "authors be willing
to distribute any materials ... used in the published experiments" including
"antibodies" should they be requested by other researchers. Final Act. 4.
We are not persuaded by Appellants' arguments and agree with
Examiner's statement of the rejection and responses to Appellants'
5
Appeal2018-007790
Application 14/421,772
arguments in both the Answer and Final Action, which we adopt and
incorporate by reference. In addition, we enter as a new ground of rejection
the previously-withdrawn Tan Rejection. We provide the following
additional comments to Appellants' arguments.
The facts of this case closely follow those in Crish. The claims in
Crish were directed to oligonucleotides consisting of defined portions of the
nucleotide sequence in SEQ ID NO: 1, which the specification described as
the promotor sequence of the hINV gene. 393 F.3d at 1255-57. The Board
affirmed the Examiner's rejection of those claims as anticipated by two of
the applicants' prior publications. Id. at 1254--55. Those publications
described experiments characterizing different aspects of hINV, but they did
not disclose the sequence of the promoter region. Id. The Federal Circuit
affirmed the Board because "just as the discovery of properties of a known
material does not make it novel, the identification and characterization of
[the sequence defining the structure] a prior art material does not make it
novel." Id. at 1258. It rejected applicants' argument "that a reference is not
anticipatory when the use of the same starting materials can yield two
similar, yet different compositions" because each of the references there
"actually disclose[d] a material that contains the promoter region of hINV."
Id.at 1259.
Appellants do not address Crish in their briefing and the arguments
they do advance fail to distinguish it from the present case. Like the
references in Crish, Appellants' prior art publication in Zhu discloses a
material containing the same sequence recited in the claims. Indeed,
Appellants concede that the mAb 11F6C4 antibody described in Zhu is the
same antibody described in the Specification and therefore necessarily
6
Appeal2018-007790
Application 14/421,772
contains the amino acid sequences recited in the claims. FF3; see also Spec.
,r,r 20-22 (identifying SEQ IDs as corresponding to mAb 11F6C4). Thus, it
is undisputed that Zhu discloses an antibody that contains the amino acid
sequences recited in Appellants' claims. That disclosure is anticipatory,
even if it was not until the present application that Appellants characterized
mAb 11F6C4 by its amino acid sequence.
In addition, the premise for Appellants' argument that one of skill
could not reproduce mAb 11F6C4 from the disclosure in Zhu is flawed
because Appellants' claims are not limited to mAb 11F6C4. The amino acid
sequence mAb 11F6C4's heavy and light chains are listed in SEQ ID N0:1
and 2 respectively. Spec. ,r 22. Claim 1, however, only requires that
sequence for certain complementary determining regions (CDRs) defined in
SEQ ID N0:3-8. Moreover, for each of those CDRs, claim 1 states that
their sequence "consists essentially of or consists of the amino acid
sequence" of the corresponding SEQ ID. "By using the term 'consisting
essentially of,' the drafter signals" that the claim may include "unlisted
ingredients" (here additional amino acid residues) so long as they "do not
materially affect the basic and novel properties of the invention." PPG
Indus. v. Guardian Indus. Corp., 156 F.3d 1351, 1354 (Fed. Cir. 1998). In
this regard, Appellants' claims allow for some variability from the precise
amino acid sequence of mAb 11F6C4. One of skill in the art would not need
to replicate an identical antibody to practice the claimed invention.
For this reason, the evidence Appellant relies upon to try to overcome
the presumption that Zhu is enabled is unpersuasive. See In re Morsa, 713
F.3d 104, 109 (Fed. Cir. 2013) ("[A] prior art printed publication cited by an
examiner is presumptively enabling barring any showing to the contrary by a
7
Appeal2018-007790
Application 14/421,772
patent applicant or patentee."). Appellants rely on testimony in the
inventors' section 1.132 declarations, stating that it would be impossible to
"reverse-engineer" mAb 11F6C4 from the disclosure in Zhu. First Deel. ,r 6;
Second Deel. ,r 7. 8 But, as explained above, one of skill the art does not
need to replicate the identical antibody to practice the claims. And there is
no evidence that undue experimentation would be required to follow the
procedures taught in Zhu and its Supplemental Information to generate and
identify an anti-cANGPTL4 antibody according to the same criteria that
yielded mAb 11F6C4. See FFI. Indeed, Appellants appear to concede that
doing so would be routine for one of ordinary skill. See App. Br. 10-11
(referring to "one of ordinary skill, following the process exactly as outlined
in Tan and/or Zhu").
Moreover, whether the sequence for mAb 11F6C4 can be reverse-
engineered by others is not the relevant inquiry for anticipation. As the
Federal Circuit explained in Crish, "[i]t is irrelevant whether other workers"
following the same procedures would "obtain[] a different sequence." 393
F .3d 1259. Here, Appellants are "claiming what [they] earlier disclosed,"
and we can "presume that [they] correctly sequenced" the CDRs of mAb
11F6C4. Id. Thus, Appellants' prior publication in Zhu of an antibody that
they later sequenced and determined to contain those sequences anticipates
their present claims to the same antibody. 9 Id.
8 Appellants submitted a third section 1.132 declaration with their Reply.
That declaration relates to whether Appellants actually distributed physical
specimens of mAb 11F6C4 to certain individuals. It does not provide any
additional evidence regarding whether one of skill in the art could follow the
procedures published in Zhu and its Supplemental Information.
9 Our analysis affirming the rejection over Zhu would likewise apply to
8
Appeal2018-007790
Application 14/421,772
For all these reasons, Appellants' arguments fail to persuade us that
Examiner erred in rejecting the claims. Accordingly, we affirm the Zhu
Rejection in full.
New Ground of Rejection
The Tan Rejection was withdrawn in Examiner's Answer. Ans. 4.
We do not understand Examiner's rationale for doing so and therefore
reenter the Tan Rejection now as a new ground of rejection pursuant to 37
C.F.R. § 4I.50(b).
Tan is prior art and it discloses the same mAb 11F6C4 antibody that
Appellants concede is encompassed by their present claims. FF3; FF4. Like
Zhu, Tan teaches the procedures that Appellants used to make and identify
that antibody. FF4. The Tan Rejection is broader than the Zhu Rejection in
that it addresses certain claims ( claims 15-18) not included in the Zhu
Rejection. Appellants do not argue those claims separately from claim 1 in
their Appeal Brief and, in any event, we find that Tan discloses the
additional limitations of claims 15-18. FF5. Appellants briefed both
rejections and we find their arguments regarding the Tan Rejection
unpersuasive for the same reasons explained above regarding the Zhu
Rejection.
We enter a new ground of rejection of claims 1, 2, 15-18, 24 and 25
under 35 U.S.C. § 102(a)(l) as anticipated by Tan. This new ground is the
same as the previously-withdrawn Tan Rejection. We incorporate by
anticipation rejection over Tan had that rejection not been withdrawn in
Examiner's Answer. Like Zhu, Tan discloses the same mAb 11F64C
antibody as well as the procedures Appellants used to make and identify it.
See Tan 10-11, 52; FF3.
9
Appeal2018-007790
Application 14/421,772
reference Examiner's prior factual determinations in the Final Action
concerning Tan as well as our analysis and findings above. For all these
reasons, we determine that claims 1, 2, 15-18, 24 and 25 are anticipated by
Tan.
SUMMARY
We affirm the rejection of claims 1, 2, 24 and 25 under 35 U.S.C.
§ 102(a) as anticipated by Zhu. We enter a new ground of rejection of
claims 1, 2, 15-18, 24 and 25 under 35 U.S.C. § 102(a)(l) as anticipated by
Tan.
TIME PERIOD FOR RESPONSE
This decision contains a new ground of rejection pursuant to 37
C.F.R. § 4I.50(b). Section 4I.50(b) provides "[a] new ground of rejection
pursuant to this paragraph shall not be considered final for judicial review."
Section 41.50(b) also provides:
When the Board enters such a non-final decision, the appellant, within
two months from the date of the decision, must exercise one of the following
two options with respect to the new ground of rejection to avoid termination
of the appeal as to the rejected claims:
( 1) Reopen prosecution. Submit an appropriate amendment of the
claims so rejected or new Evidence relating to the claims so rejected, or
both, and have the matter reconsidered by the examiner, in which event the
prosecution will be remanded to the examiner. The new ground of rejection
is binding upon the examiner unless an amendment or new Evidence not
previously of Record is made which, in the opinion of the examiner,
10
Appeal2018-007790
Application 14/421,772
overcomes the new ground of rejection designated in the decision. Should
the examiner reject the claims, appellant may again appeal to the Board
pursuant to this subpart.
(2) Request rehearing. Request that the proceeding be reheard under
§41.52 by the Board upon the same Record. The request for rehearing must
address any new ground of rejection and state with particularity the points
believed to have been misapprehended or overlooked in entering the new
ground of rejection and also state all other grounds upon which rehearing is
sought.
Further guidance on responding to a new ground of rejection can be
found in the Manual of Patent Examining Procedure§ 1214.01 (9th Ed, Rev.
07.2015, Nov. 2015).
AFFIRMED; 37 C.F.R. § 4I.50(b)
11
Application/Control No. Applicant(s)/Patent Under Patent
Appeal No.
14/421,772 2018-007790
Notice of References Cited
Examiner Art Unit
Page 1 of 1
1644
U.S. PATENT DOCUMENTS
*
Document Number Date
Name Classification Country Code-Number-Kind Code MM-YYYY
A US-
B US-
C US-
D US-
E US-
F US-
G US-
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FOREIGN PATENT DOCUMENTS
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Country Name Classification Country Code-Number-Kind Code MM-YYYY
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NON-PATENT DOCUMENTS
* Include as applicable: Author, Title Date, Publisher, Edition or Volume, Pertinent Pages)
Pengcheng Zhu et al., Angiopoietin-like 4 Protein Elevates the Prosurvival Intercellular 02 -.-H202 Ratio
u and Confers Anoikis Resistance to Tumors, Cancer Cell, Vol. 19, 401--415 (2011) ("Zhu").
V
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*A copy of this reference 1s not being furnished with this Office action. (See MPEP § 707.05(a).)
Dates in MM-YYYY format are publication dates. Classifications may be US or foreign.
U.S. Patent and Trademark Office
PT0-892 (Rev. 01-2001) Notice of References Cited Part of Paper No.
Cancer Ce!! 19
Supplemental Information
AngiopoietinMlike 4 Protein Elevates
the Prosurvival Intracellular 0 2--:H20 2 Ratio
and Confers Anoikis Resistance to Tumors
Pengcheng Zhu, Ming .Jie Tan, Royston-Luke Huang, Chek Kun Tan, Han Chung Chong,
Mintu Pal, Chee Ren Ivan Lam, Petra Boukamp, Jiun Yit Pan, Suat Hoon Tan, Sander
Kersten, Hoi Yeung Li, .feak Ling Ding, and Nguan Soon Tan
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Figure S4, related to Figure 4. ANGPTL4 Elevates the 0 2 - Level and Maintains a Relatively
High 02-:H202 Ratio in Tumor Cells
(A) Suppression of ANGPTL4 has no effect in the methionine/homocysteine metabolic cycle of
tumor cells. Relative mRNA level ofBIJJHT, 111ATLA, AHCY, IGIK, OAT and HACLJ
(representative genes in the methionine/homocysteine metabolic cycle) in A-5RT3ANGPTL4 and
A-5RT3cTRL cells as determined by qPCR.
(B) Immunoblot ofNoxl and Nox2 in A-5RT3crRL, A-5RT3 ANGPTL4 and MA-l\/IB-231 cells. p-
tubulin served as a loading and transfer control. Representative blots of three independent
experiments are sho;,vn.
(C and K) Relative fold change in Noxl and Nox2 rnRNA and protein levels in i\-5RT3cTRL
(scrambled control), A-5RT3Noxl (Nox1 knockdown) and A-5RT3Nox2 (Nox2 knockdown) cells
(C), or in MDA-l\/1B-231cTRL (scrambled control), rv1DA-MB-231NoxJ (Noxl knockdown) and
MDA-MB-23 l Nox2 (Nox2 knockdown) cells (K).
(D, Hand L) Measurement of H20 2 levels using the Amp lex red assay in A-5RT3cTRL and A-
5RT3NoxJ cells (D), in MDA-MB-23lcTRL and MDA-rv1B-231Noxl cells (L); and in l\/IDA-MB-
231 cells treated with mAb 11 F6C4 (3 or 6 Fglml) or control IgG ( 6 µ.g/rnl) (H). Arbitrary
relative 02-J:b02 ratios are shown in boxes (J\
(E) Representative EPR spectra ofDEPMPO-superoxide spin adduct from MDA-MB-231 cells
in the absence or presence of indicated chemicals or inhibitors. M DA-MB-231 cells were treated
with mA_bl 1F6C4 (3 or 6 ).lg/ml) or control IgG (6 p.g/ml). In indicated experiments, MDA-l\/IB-
23 l cells were transiently transfected with ON-TARGETplus siRNA (Dharmacon) against either
Noxl (Nox1 kd) orNox2 (Nox2 kd). The superoxide adduct ofDEPMPO has hyperfine splitting
constants ofaN=13.13 G; ap=55.61 G; a1\r=13.11 G; aYg=0.71, 0.42, 0.7, 0.25, and 0.6 G.
(F) EPR signal intensity at 3480 G from MDA-MB-231 cells in (E). Tiron-treated measurement
served as a negative signal control.
(G) l\/leasurement of 0 2 levels using the MCLA assay in MDA-MB-231 cells treated with
mAb11 F6C4 (3 or 6 µg/ml) or control igG (6 ilg/ml) in the absence or presence of the indicated
chemicals or inhibitors.
9
CO Percentage of apoptotic MDA-1'.U3'-23 l after 2 h of anoikis as analyzed by FA.CS (5000
events). Apoptotic index is described in Figure 38. Values (bold) denote apoptotic cells(%)
from three independent experiments.
(J) Relative activities of caspases 2, 3, 6, 8 and 9 in rnAb 11 F6C4-treated MDA-M B-231 cells
after 2 h of anoikis. Values ( means ± SD) are from three independent experiments perfom1ed in
triplicate. *p < 0.05; **p < 0.01. Fold-increase in caspase activity was calculated by comparison
to pre-irnrnune IgG-treated MDA-MB-231 cells.
(A, C and K) Error bars represent SD from three independent qPCR experiments performed in
triplicate. Ribosomal protein L27 (L27) v,.ras used as a reference housekeeping gene. (D-H and L)
Values \Vere normalized to total proteins and presented as means± SEM. Data \Vere frorn three
independent experiments performed in triplicate. *p < 0.05; **p < 0.01; ***p < 0.001; n.s.
represents not significant. (E-G) Vehicle-treated M DA-MB-231 eel Is in the presence of control
IgG (6 µg/ml) serve as cognate controls.
10
A
**
veh DP! 3 6 8t1
Control lt:iG rnAb 11 F6C4
(6 pfi/mt) (pg/rnl)
HSC
w {Squamous Cell Carcinoma)
+~
§ (/)14
:c ro12
O'> 010
::i S 8
-~: 6
-a~ 4 & 2
0
vel1 OP! 3 6 !3p1
CQ:ntrol lgG mAb11 F6C4
(b pglmT) (pg/ml)
huH-1
(Hepatoma}
veh DP! 3 6 BPI
Control !gG mAb11F6C4
(6 iig/m{J (J.ig/m!J
!!-4
2 8
'C:
T24
(f?!adder Carcinoma) (Squmnous Ce!! Carcinoma)
$ 14 . .
6+ veh DPI 3 6 QP!
Cgnlrof !gG mAb11F6C4
(6 pgimTJ (p£1!m!)
::) V,
1: ~ 6 ->;·
0)(.)
::i ,., Jj*•..JIL.. 8 anatomic sites. The two tissue arrays were probed with the anti-cANGPTL4 polyclonal
antibody fr.)llowed by Alexa488 goat-anti-rabbit IgG. Irnages vvere taken using MIRAX MIDI
with Plan-Apochromatic 20x/0.8 objective (with equal exposure and gain), and each image was
automatically stitched using MIRAX Scan software (Carl Zeiss). The 3D heatmaps were
generated using IMARIS software (Bitplane Scientific Software). In the heatmaps, the X- and Y-
axes represent the length and width, whereas the Z axis represents the IF intensity. The gray
14
value (IF intensity) was obtained from three biopsies using TissueQuest software (TissueGnostic
GmbH).
Laser Capture Mkrodissection (LCM)
For LCJ\/1 samples, epithelial and stromal fractions were microdissected from 8-~tm-thick
sectioned tissues using a PALM Micro beam Axio Observer Zl (Carl Zeiss). LCM tissues were
collected into rnicrofuge tubes with opaque AdhesiveCaps (Carl Zeiss). RNA was extracted
using Optimum TM FFPE RNA Isolation kit (Ambion) pooled from eight LCM tissues. Five ng of
RNA was amplified using a Full Spectmm Complete Transcriptome RNi\ Amplification kit
(System Biosciences) prior to qPCR as previously described (Chong et al., 2009; Gob et al.,
2010a, 2010b).
Cell Culture
HaCaT is an immortalized hut non-tumorigenic human keratinocyte line. II-4 and A-5RT3 are
turnorigenic HaCaT derivatives kindly provided by the German Cancer Research Center (DKFZ,
Germany). HSC is a human squamous cell carcinoma line provided by Prof Aso (Yamagata
University School of Medicine, Japan), and MDA-MB-231 (breast adenocarcinoma) by Dr. Lin
(Nanyang Technological University). Other lines used were murine melanorna B16F10 and
human tumor lines used were Alexander (malignant hepatoma), A549 (lung carcinoma), Hela
(cervix adenocarcinoma), huH-1 (hepatorna), Kato m (stomach signet ring cell carcinoma),
MCF7 (breast adenocarcinoma) and T24 (bladder carcinoma). All cells vvere rnaintained in
Dulhecco 's modified Eagle's medium (DMEM; Hyclone, USA) supplemented with 10%i heat-
inactivated fetal bovine serum (FBS, Hyclone), except for A549, huH-1, Kato lII which were
maintained in RPMI-1640 (Hyclone) with 10% FBS. Cells were cultured at 37 °C, 5%) CO2 and
75%) humidified incubator.
Suppression by RNA Interference (RNAi)
siRNAs against human ANGPTL4, mouse ANGPTL4, Nox1, Nox 2 and a scrambled sequence
as control (control siRNA) were subcloned into the pFIV-H1/U6-puro pFIV/siRNA lentivirns
system. The correct pFlV siRNA constructs were verified by sequencing using H 1 primer. The
sequences are shown in table below. Pseudovirns purification and transduction were performed
(Chong et al., 2009). ANGPTL4-knockdown tumor cells were enriched by puromycin selection
for 1 week. The A-5RT3 sub-cell line designated A-5RT3."'NGPTL4, "I.Vith the highest knockdown
efficiency "I.Vas chosen in this study, and the non-targeted siRNA transduced line vvas denoted as
A-5RT3crnL- The expression of endogenous ANGPTL4 in MDA-MB-231 cells was also
suppressed using tetracycline-inducible pSingle-tTS-shRNA vector (Clontech). ANGPTL4 set 2
shRNA sequences were used (see table below), Knockdmvn efficiency of ANGPTIA and
relative expression level of indicated genes "I.Vere determined by qPCR and immunoblot.
Table. Sequences of ANGPTL4, Noxl, Nox2 and Control siRNAs.
siRNA Sense Primer (5' ----> 3') Antisense Primer (5' ---'> 3')
ANGP1L4 ,et 1 ·• Af.\f\GCTGCAAGATGf\CCTCAGATGGAGGCTG AIV\ACAGCCTCCATCTGAGGTCf\ TCTTGCAG
TCGAGGCAGCACCTGCGAATTCAGCATCTGCA AGCTTACGCGTAAAAAGCAGCACCTGCGAATT
ANGPTL4 set 2• TTCAAGAGATGCAGATGCTGAA TTCGCAGGTG CAGCATCTGCATCTCTTGAATGCAGATGCTGA
CTGCTTTTTTACGCGTA
ANGPTL4 ,et., AA/1..GCAGCAGGATCCJ.\GCf\ACTCTTCCACf\A
ANGPTiA set 4 AAAGGCTTAAGAAGGGAATCTTCTGGf\AGAC
ATTCGCAGGTGCTGCC
AAAATTGTGGAAGAGTTGCTGGATCCTGCTG
f\AAAGTCTTCCAGAAGATTCCCTTCTTAAGC
Nnxl AAAGGGCCACAGATGGCTCCCTTGCCTCCAT AAAr'IJ.\TGGAGGCt~\GGGAGCCATCTGTGGCC
15
Nox2 AAAGGGCCAGATGTTCTTTCTACAGAAGAAT AAAAATTCTTCTGTAGAAAGAACATCTGGCC
Mou,eANGPTJA AAAGCTGTGAGATGACTTCAGATGGAGGCTG AAAACAGCCTCCATCTGAAGTCATCTCACAG
Conlnil slRNA AAAGCTGTCTTCAAGCTTGATATCGAAGACTA AAAATAGTCTTCGATATCAAGCTTGAAGACAG
*ANG-PT/A Set 1 siRNA used for lentivirus-mediated RNA interference.
# ANGPTL4 set 2 shRNA was cloned into pSingle-tTS-shRNA vector (Clontech) and used for
doxycycline-inducible knockdown in 1'.1IDA-MB-231 cells.
Rho GTPases Assay
Active OTP-bound Rael was quantified as previously described (Tan et al., 2009) with minor
modifications. Briefly, 500 µg of the indicated tumor biopsies lysates were incubate with 2 µg of
configuration-specific monoclonal anti-Rac1-GTP antibody (GTP-Racl; NewEast Biosciences).
OTP-Rael-bounded antibodies were inm1Unoprecipitated with Sepharose Protein G/A beads.
Bound proteins were solubilised in Laemmli's buffer, resolved by SDS-Pi\GE, and
irnmunoblotted using polydonai antibody against Rael. Total Rael was detected using total
lysate. Anti-Rael antibodies for immunblot were from Cytoskeleton Inc.
Membrane Protein Extraction
HEK293T cells were transfected "I.Vith either empty mammalian expression vector pEF 1-mycA
(Invitrogen) or vector carrying cDNAs encoding human integrins p 1, 03 and ~5 by means of
ExGen 500. Forty-eight hours post-transfection, cell membranes were first isolated using
ProteoExtractNative Protein Extraction Kit (Calbiochem) and subjected to enrichment by sucrose
step gradient (Tang, 2006). The proteins were dialyzed against PBS prior to SPR analysis.
Immunoblot Analysis
Total protein was extracted from cells or tumor tissues/cells with ice-cold lysis buffer (20 rnM
Na2H2P04, 250 mM NaCl, 1 %1 Triton-I 00, 0.1 ?-·~ SDS). Equal amount of protein extracts were
resolved by SDS-PAGE and eiectrotransferred onto PVDF membranes. Membranes were
processed according to standard procedure and proteins were detected by chemiluminesence
(Millipore, USA). 0-tubuiin was used as loading and transfer control.
Detection of Src Oxidation by Carboxymethylation
The detection of reduced Src v,.ras performed as described (Giannoni et al., 2009) with minor
modifications. Cells \Vere subjected to anoikis as described above. At the indicated time, cells
were then lysed with 500 ~tl lysis buffer (50 mM Tris-HCI, pH 7.5, 150 mM NaCl, 0.5%> Triton
X-100, 10 p,g/ml aprotinin and 10 µ.g/ml leupeptin) containing 100 ,uM !V-(biotinoyl)-!V-
(iodoacetyl) ethylenediamine. Lysates were clarified by centrifugation and c-Src vw1s
immunoprecipitated using specific anti-c-Src antibodies. Immunocomplexes were resolved by
SDS-PAGE and the biotinylated/reduced fraction of Src kinase was detected with horseradish
peroxidase (HRP)-conjugated streptavidin and chemiluminesence.
Electron Paranrngnetic Resonance (EPR) Measurement of 0 2-
Entire excised tumor biopsies were enzymatically dispersed into single cell suspensions. The
tissue was minced and incubated in digestion buffer containing 1 mg/ml hyaluronidase, 1 mg/ml
collagenase D and 100 unit/rnl DNase (Sigma-Aldrich) in a 37°C shaking incubator for 2 h. The
dispase and hyaluronidase digests were pooled and filtered through a 70 µm Nylon cell strainer.
Cells were washed, pelleted and resuspended in PBS containing 3~~ FBS. Equal numbers of cells
16
were used for EPR measurement of 0 2-. Direct trapping of superoxide in aqueous media was
perfonned using the spin trap DEPMPO, which fonns a relatively stable superoxide adduct. EPR
spectra were recorded at room temperature with a Bruker D-200 ER spectrometer, operating at
X-band with a Tl\.11 110 cavity with a quartz flat cell. The EPR parameters were set at 100 KHz,
X-band microwave frequency, 9.5 GHz; microwave power, 20 m\V; modulation amplitude, 1 G;
time constant, 160 s; scan time, 50 s; and receiver gain, 5 x 105. The EPR spectra represent the
averaged signals of 10 scans. EPR signal amplitude at 3480 G represents the pure line
corresponding only to the superoxide adduct All experiments were performed in triplicates.
Total RNA Isolation and Quantitative Real-time PCR (qPCR)
Total RNi\ was extracted and qPCR "I.Vas performed Expression "I.Vas related to the housekeeping
gene 60S ribosomal protein L27 (L27) which did not change under any of the experimental
conditions studied. The sequence of primers is available in the table below. For focused mRNA
array, genes whose expression was changed significantly (> 2-fold) were listed and heatmaps
;,vere generated using Orange Canvas 1.0 software.
Table. Sequences of qPCR Primers.
I GenBank 1 Official I Sense Primers (5' --+ 3') 1 Antisense Primers (5' --+ 3') 1
~ ~ ~1 I ~ ~
I Accessmn j Svmhol I ! !
~ ~ " I ~ ~
~ ............................................................................................................ ~.._ ........................................................................ ,t .......................................................................................................................................................................................................................................... ~ ....................................................................................................................................................................................................................................... ~
! NlvI 004324 j BAX ! GGGTGGTTGGGTGAGACTC ! AGACACGTAAGGAAAACGCATTA !
~ ..................... ·-- ........................................................................... ~ ........................................................................... ,t .......................................................................................................................................................................................................................................... ~ ....................................................................................................................................................................................................................................... ~
! NM 014,i 17 j 8BC3 ! GACCTCAACGCACAGTACGAG ! AGGAGTCCCATGATGAGATTGT !
I NM--1'8"~8 """"'"TBcr 2l '""'"' ITCCCTCC \ \L\C{'CT\C L\" \c\c"""'" i C{'TCCTCC1\TTCTTCCC \T \ """"""' 1
~ ....................................... .) ... _.,, I ............................................. ~ .......... __ _.,, ...... _.,, l ........................ ~ ............. J _.,, J ......... J! ... JJ: ... ! ... .,f ......... J! ... / ... J ...... 1: ...... _J.,1 ...... \. L ... 1 ......... J ........................ ~ .... J! ... / ............ J _.,, ......... J __ ............................ J .................. / ... / ... _.,,1: ............ L ................................................ ~
! NM 004050 I BCL2L2 ! GCGGAGTTCACAGCTCTATAC I AAAA.GGCCCCTACAGTTACCA I ::- .............................................................................................................. ~ ...................................................................... ~ ................................................................................................................................................................................................................................................................................................................................................................................................................................................................................. .
! NM 001196 I BID ! GACAGCATGGACCGTAGCATC ! AGGTGCGTAGGTTCTGGTT.A.ATA !
::- ...................... - .............................................................................. ~ ...................................................................... ~ ........................................................................................................................................................................................................................................ t ........................................................................................................................................................................................................................................ ~
! NM 001166 j LURC2 ! GTTTCAGGTCTGTCACTGGAAG ! TGGCATACTACCAGATGACCA !
~ ........................ ---.............................................................................. *- .......................................................................................................................................................................................................................................................................................................................... ,t... ....................................................................................................................................................................................................................................... ,t
! NM J 82962 j LURC3 ! TCCTGGATAGTCTACTAACTGCC ! GCTTCTTGCAGAGAGTTTCTGAA !
i ·N·~, "()'P2l)~ """'""i ·..., ·' "l,, --------- i ·1·c'" \ ,, 'f /\ \"lY'C'-\C' /\ \c··r'C', \C'"( · • t c·c"rc'1· \C'C'C'C'\c·· /\1"f'I"J'C"r •t···c· /\ " l ~ JVl -- .) . L ~ l/./l>) f \ _.,,\_ { 1·\. .,1"\._{ '...J J! /.,t"\._{ J _.,,j:\._f J\ . . • \ J _.,1 J / / / _.,1 _.,,j-\. J.,1"\._ J J:"\. _J /.,t"\._ \
i ·N·l\1 ___ 0(} i 2·~0 """"" i ·c-· ,'S'D I·)"'"" i ", "'"I'(--,-.. I'('('r' '',, r• ;'('"I'(-,;.' Ac-·,, r• "" l ·JY"I"IY'('("I'(''I"I"I'(''I'r'r' ,\("I'("I' """'""l ~ •• - , ./-' t.. .l. • l \ i\ l _I'-J ./ _,,\_,J\1·\.\_L'--\. ./.f-1... _L-V1.. J1·\.\_,, , '-J '--· ./ ./ .J .J \_,,,____ ./ ./ ,
L NM-032982 ___________ J.c>1sP2 __________ l.AAA.CGAGGTTCCTGGTACATCG _____ J TCCTTGATAAGTGCGTTCACC __________ j
! NM 033340 j CASP7 ! AGTGACAGGTATGGGCGTTC ! GAGGTTGCAGTCTTCCGAGAT !
~ ........................ Noble agar in DMEM with 10% FBS on top. Tumor-cell colonies were
stained with 1 mg/rnl thiazolyl blue tetrazolium in PBS after 4 weeks.
Cells were subjected to an anoikis assay. Briefly, anoikis was induced by forced suspension,
wherein 5.0 105 cells were seeded onto l.Qi;;;i serum-free DME1'.1I equilibrated agarose in the
presence of either 10 µg/rnl of pre-immune IgG orrnAbllF6C4. For MBA-MD-231, the cells
were exposed to 1 ~tg/ml doxycyline for 24 h to knockdown ANGPTL4 prior anoikis. For rescue
experiments, cells were subjected to anoikis in the presence of either the indicated concentrations
of exogenous recombinant cANGPTL4 or vehicle (PBS). Cells were harvested at the indicated
time points, and analyzed for apoptosis by FACS analysis. The apoptotic indices of attached cells
were determined immediately after harvesting v,.rith trypsin.
Caspase Activity Assay
Cells \Vere subjected to anoikis as described above. The activities of caspases 2, 3, 6, 8 and 9
,vere measured with Apotarget caspase colorimetric protease assay kit (Biosource International,
Camariilo,CA) according to the manufacturer's instructions. The O.I).4osnm was measured, and
the fold increase in caspase activity vw1s determined by direct cornparison with the level of the A-
5RT3crnL or cognate pre-immune IgG treated cells.
18
Supplemental References
Cornrnittee on Methods of Producing Monoclonal Antibodies, Institute for Laboratory Animal
Research, and Council, N.R., ed. (1999). Monoclonal Antibody Production.
Goh, Y.Y., Pal, M., Chong, H.C., Zhu, P.C., Tan, M.J., Punugu, L., Lam, C.R.I., Yau, Y.H., Tan,
C.K., Huang, R.L., Tan, S.M., Tang, M.B.Y., Ding, LL., Kersten, S. and Tan, N.S. (2010a).
Angiopoietin-like 4 interacts with integrins !31 and BS to rnodulate keratinocyte migration. Am.
J. Pathol. 177, 2791-2803.
Goh, Y.Y., Pal, M., Chong, H.C., Zhu, P., Tan, M.J., Punugu, L., Tan, C.K., Huang, R.L., Sze,
S.K., Tang, l\/1.B.Y., et al. (2010b). Angiopoietin-like 4 interacts with matrix proteins to
modulate wound healing. J Biol Chern 28.5, 32999-33009.
Tang, V.W. (2006). Proteomic and hioinformatic analysis of epithelial tight junction reveals an
unexpected cluster of synaptic molecules. Biology direct 1, 37.
19