Subscriber access provided by READING UNIV
Article
Enantioselectivity of 2,2',3,5',6-pentachlorobiphenyl (PCB 95) atropisomers toward ryanodine receptors (RyRs) and their influences on hippocampal neuronal networks Wei Feng, Jing Zheng, Gaelle Robin, Yao Dong, Makoto Ichikawa, Yoshihisa Inoue, Tadashi Mori, Takeshi Nakano, and Isaac N Pessah Environ. Sci. Technol., Just Accepted Manuscript • DOI: 10.1021/acs.est.7b04446 • Publication Date (Web): 13 Nov 2017 Downloaded from http://pubs.acs.org on November 14, 2017
Just Accepted “Just Accepted” manuscripts have been peer-reviewed and accepted for publication. They are posted online prior to technical editing, formatting for publication and author proofing. The American Chemical Society provides “Just Accepted” as a free service to the research community to expedite the dissemination of scientific material as soon as possible after acceptance. “Just Accepted” manuscripts appear in full in PDF format accompanied by an HTML abstract. “Just Accepted” manuscripts have been fully peer reviewed, but should not be considered the official version of record. They are accessible to all readers and citable by the Digital Object Identifier (DOI®). “Just Accepted” is an optional service offered to authors. Therefore, the “Just Accepted” Web site may not include all articles that will be published in the journal. After a manuscript is technically edited and formatted, it will be removed from the “Just Accepted” Web site and published as an ASAP article. Note that technical editing may introduce minor changes to the manuscript text and/or graphics which could affect content, and all legal disclaimers and ethical guidelines that apply to the journal pertain. ACS cannot be held responsible for errors or consequences arising from the use of information contained in these “Just Accepted” manuscripts.
Environmental Science & Technology is published by the American Chemical Society. 1155 Sixteenth Street N.W., Washington, DC 20036 Published by American Chemical Society. Copyright © American Chemical Society. However, no copyright claim is made to original U.S. Government works, or works produced by employees of any Commonwealth realm Crown government in the course of their duties.
Page 1 of 42
Environmental Science & Technology REVISION manuscript for EST
1
Enantioselectivity of 2,2',3,5',6-pentachlorobiphenyl (PCB 95) atropisomers toward
2
ryanodine receptors (RyRs) and their influences on hippocampal neuronal networks
3 4
Wei Feng1, ^, Jing Zheng1,2, ^, Gaëlle Robin1, Yao Dong1, Makoto Ichikawa3, Yoshihisa Inoue3,
5
Tadashi Mori3, Takeshi Nakano4 and Isaac N. Pessah1,*
6 7 8
1
9
USA; 2China Pharmaceutical University, Jiangsu Provincial Key Laboratory for TCM
Molecular Biosciences, School of Veterinary Medicine, University of California, Davis, CA,
10
Evaluation and Translational Development, China; 3 Graduate School of Engineering, Osaka
11
University, Japan ; 4 Research Center for Environmental Preservation, Osaka University,
12
Japan
13 14 15 16 17
^ Equally contributed to this work.
18
* To whom correspondence may be addressed. Email:
[email protected]. Telephone:
19
+1-(530)-752-6696.
20 ACS Paragon Plus Environment
Environmental Science & Technology REVISION manuscript for EST
21
ABSTRACT
22
Nineteen ortho-substituted PCBs are chiral and found enantioselectively enriched in
23
ecosystems. Their differential actions on biological targets are not understood. PCB 95
24
(2,2',3,5',6-pentachlorobiphenyl), a chiral PCB of current environmental relevance, is among
25
the most potent towards modifying ryanodine receptors (RyR) function and Ca2+ signaling.
26
PCB 95 enantiomers are separated and assigned aR- and aS-PCB 95 using 3 chiral-
27
columns HPLC and circular dichroism spectroscopy. Studies of RyR1-enriched microsomes
28
show aR-PCB 95 with >4X greater potency (EC50=0.20±0.05µM), ~1.3X higher efficacy
29
(Bmax=3.74±0.07µM) in [3H]Ryanodine-binding and >3X greater rates
30
(R=7.72±0.31nmole/sec/mg) of Ca2+ efflux compared with aS-PCB 95, whereas racemate
31
has intermediate activity. aR-PCB 95 has modest selectivity for RyR2, and lower potency
32
than racemate toward the RyR isoform mixture in brain membranes. Chronic exposure of
33
hippocampal neuronal networks to nanomolar PCB 95 during a critical developmental period
34
shows divergent influences on synchronous Ca2+ oscillation (SCO): rac-PCB 95 increasing
35
and aR-PCB 95 decreasing SCO frequency at 50nM, although the latter’s effects are non-
36
monotonic at higher concentration. aS-PCB95 shows the greatest influence on inhibiting
37
responses to 20Hz electrical pulse trains. Considering persistence of PCB 95 in the
38
environment, stereoselectivity towards RyRs and developing neuronal networks may clarify
39
health risks associated with enantioisomeric enrichment of PCBs.
40
ACS Paragon Plus Environment
Page 2 of 42
Page 3 of 42
Environmental Science & Technology REVISION manuscript for EST
41 42
INTRODUCTION PCBs are a group of 209 man-made chlorinated hydrocarbons. Because of their
43
chemical, thermal stability, non-flammability and electrical insulating properties, they were
44
broadly included in numerous industrial and commercial applications
45
(https://www.epa.gov/pcbs). Although production and use of PCBs have been banned since
46
late 1970s, exposures continue through proximity to durable end products such as chalks in
47
schools, dredging of PCB contaminated sediments, and inadvertent leaks from storage
48
sites1.The chemical stability and bioaccumulation of PCBs in food animals and humans has
49
been unquestionably documented2-4. Several epidemiological studies of human populations
50
have linked exposures to PCBs and chemically related persistent organic pollutants (POPs)
51
to increased risk of certain cancers, prompting the International Agency of Research on
52
Cancer (IARC) to classify PCBs as Group 1 carcinogens5. Importantly, pre- and/or postnatal
53
PCB exposures have been linked to a number of cognitive, behavioral, psychomotor and
54
metabolic deficits in humans and animal models6-13. Mechanistic links between cancer
55
promotion and neurological disorders has not been established.
56
Nineteen of the 209 PCB that possess 3 chlorine substituents confer chiral
57
asymmetry about the biphenyl bond axis, and thus they exist as stable atropisomer or
58
enantiomers14. It is the Ortho-substituted noncoplanar PCBs, including many of the chiral
59
PCB congeners that originated out of the manufacturing process as racemic mixtures
60
continue to predominate15. Although physico-chemical processes do not promote
61
enantiomeric enrichment of racemic PCBs16-18, enrichment has been demonstrated in living
62
organisms through mechanisms of differential absorption, distribution, biotransformation and
63
excretion19. More contemporary analytical results show ample evidence of enantioselective
ACS Paragon Plus Environment
Environmental Science & Technology REVISION manuscript for EST
64
dispositions of PCBs and related POPs not only in sediments and soils, but also in tissues of
65
wildlife, laboratory animal, and humans20-23. However, much less information is available
66
about the consequences of enantioselective enrichments, their differential interactions with
67
the biological targets whose physiological role, when modified, are known to induce and
68
promote neurotoxicity. A major factor limiting our understanding of the molecular
69
mechanisms underlying stereoselective influences of PCB enantiomers is the analytical
70
challenges in enantiomeric separation and assignment of absolute conformation24-29.
71
PCB 95, one of 19 chiral PCB congeners, is not only one of the more prevalent legacy
72
congeners found in aging schools30-32, but there is also evidence of contemporary sources
73
from the pigment industry33-35. Rac-PCB 95 is also among the most potent and efficacious
74
PCB congeners that target and modify ryanodine receptor (RyRs), microsomal Ca2+
75
channels that regulate the spatial and temporal fidelity of Ca2+ dynamics in a broad number
76
of cell types, including striated muscle and neurons36-40. Interactions of PCBs with RyRs
77
exhibit stringent structural-activity relationships39-41 that can adversely influence by aspects
78
of neuronal connectivity36, 37, 42, 43, activities that appear to be highly stereoselective as
79
demonstrated with PCB 136 enantiomers25, 26. Using postmortem brain samples and a
80
neuronal cell culture model carrying a 15q11.2-q13.3 maternal duplication, exposures to PCB
81
95 have been recently shown to cause cumulative changes in epigenetic DNA
82
hypomethylation enriched over autism candidate genes, through a mechanism that involves
ACS Paragon Plus Environment
Page 4 of 42
Page 5 of 42
Environmental Science & Technology REVISION manuscript for EST
83
bivalent modification of histone H2A.Z44,45. Whether such effects of PCB 95 are
84
stereoselective at the levels of RyR engagement or cellular functions have not been
85
demonstrated.
86
The present study specifically addresses the separation of PCB 95 enantiomers and
87
demonstrates their enantioselective actions towards RyR isoforms and their differential
88
influences on neuronal network activity in vitro.
89 90
MATERIALS AND METHODS
91
Chemicals. PCB 95 (racemic) was purchased neat from AccuStandard (Lot: 010610KS; 99–
92
100%), and aR-PCB 95 and aS-PCB 95 were separated from this racemic stock. [9,21-3H]
93
Ryanodine specific activity 50-100Ci/mmol was purchased from PerkinElmer (Bellerica, MA).
94
Separation of enantiomers PCB 95. A detailed description of the separation of PCB 95
95
enantiomers is presented in RESULTS AND DISCUSSION.
96
Preparation of RyR1-enriched junctional sarcoplasmic reticulum (JSR). All procedures with
97
animals were approved by the UC Davis IACUC Committee. JSR membrane fraction
98
enriched in RyR1 and SR/ER Ca2+ ATPase (SERCA) was isolated from fast-twitch skeletal
99
muscles of 98% (Publication in Chinese; Abstract in
156
English)61. Utilizing online optical rotation detector (IBZMESSTECHNIK, Germany), they
157
assigned the absolute configurations for enantiomers of first elute as (-)-PCB 95 and the
ACS Paragon Plus Environment
Page 8 of 42
Page 9 of 42
Environmental Science & Technology REVISION manuscript for EST
158
second (+)-PCB9561. We therefore propose aR is equivalent to (-)-PCB 95 and aS-PCB 95 is
159
equivalent to (+)-PCB 95.
160
Enantiomeric enrichments is expressed as EF (enantiomeric fraction), the
161
concentration of one enantiomer divided by the total concentration of both enantiomers
162
(EF=A1/(A1+A2), with 0.5 corresponding to racemic mixture)62. Enantiomeric enrichment of
163
PCB 95 was found with an EF value as high as 0.693±0.172 in the serum samples of E-
164
waste recycling workers in China58; 0.64-0.76 in the samples from human milk in
165
Switzerland 56; 0.51-0.75 from liver, 0.50-0.57 from kidney in Belgium54.
166
PCB 95 enantiomers differentially sensitize [3H]Ry binding to RyRs.
167
[3H]Ryanodine ([3H]Ry) binds with nanomolar affinity to RyRs that are anchored within
168
the endoplasmic/sarcoplasmic reticulum (ER/SR) of muscle and neurons, respectively46, 63-65.
169
Since [3H]Ry interactions with RyRs have been shown to be highly specific, and exhibit
170
binding kinetics that were highly sensitive to the conformational states of the Ca2+ channel
171
complex, [3H]Ry binding has been broadly used to identify and quantify the influences of
172
ligands that allosterically modulate channel function, positively and/or negatively. It has been
173
used to develop a quantitative structure-activity relationship among PCB congeners with RyR
174
preparations from mammals and fish38, 40, 41, although the stereoselectivity of chiral PCBs of
175
environmental relevance has remained poorly understood. In previous studies, racemic PCB
176
95 was shown to significantly increases maximal [3H]ryanodine binding capacity (Bmax) and
ACS Paragon Plus Environment
Environmental Science & Technology REVISION manuscript for EST
177
affinity51 by stabilizing the high affinity state of RyR1, an effect demonstrated with the purified
178
channel protein66. To determine whether and to what degree PCB 95 stereoisomers
179
influence the conformation of RyR1, we used concentrations of [3H]ryanodine that itself does
180
not influence receptor conformation (ie, 2-fold greater receptor occupancy
189
compared to aS- and rac-PCB 95, respectively (Fig 2A insert). These data showed a clear
190
stereoselectivity for interaction of PCB 95 enantiomers toward RyR1.
191
To test our hypothesis whether the stereoselectivity observed towards RyR1
192
extended to preparations that express only RyR2 or complex mixtures of RyRs present in
193
brain tissue, membrane homogenates from 110,000xg pellets were assayed as described in
194
Supporting Information and Methods. For consistency, western blot and [3H]Ry binding
195
analyses were performed to compare homogenates prepared from mouse skeletal muscle,
ACS Paragon Plus Environment
Page 10 of 42
Page 11 of 42
Environmental Science & Technology REVISION manuscript for EST
196
heart and brain cortex in parallel. Cortical preparations were probed with selective antibodies
197
at saturating levels by western blot analysis and skeletal and cardiac membranes served as
198
positive controls for RyR1 and RyR2. All three isoforms (RyR1, RyR2, and RyR3 were
199
detected in brain cortical preparations (SI_Figure 1), and qualitatively the levels followed the
200
rank order in abundance RyR2>RyR1>RyR3. The relative abundance of RyR isoforms
201
expressed cerebellum, cortex and hippocampus has not been clearly established69. Although
202
RyR1 has not been consistently shown to be expressed in cortex70-72, our results clearly
203
affirm its presence (SI_Figure 1). The [3H]Ry binding density of these preparations were
204
approximately 16.4 to 54 -fold lower than those measured with JSR preparations. The high
205
lipid-to-protein content in these less-pure preparations decreased the apparent potencies for
206
PCBs in binding assays, presumably due to lipid partitioning40 and it was therefore difficult to
207
titrate free PCB 95 to concentrations sufficient to saturate its activating effects on RyR1.
208
Nevertheless, the results obtained from these mouse RyR1 preparations were consistent
209
with those obtained with rabbit JSR, with aR-PCB 95 exhibiting higher potency and efficacy
210
than either rac- or aS-PCB 95 (Fig 3A). Although RyR2 preparations showed much narrower
211
selectivity among the three PCB 95 forms, aR-PCB 95 exhibited 15.4% (*p≤0.05 vs. rac-
212
PCB95) higher activity towards RyR2 at 1.5µM compared to racemate, while no significance
213
was found between the activity of aS and racemate towards RyR2, and aR-PCB 95
214
possessing higher potency than rac- and aS-PCB 95(Fig 3B), consistent with the
ACS Paragon Plus Environment
Environmental Science & Technology REVISION manuscript for EST
215
observations from in RyR1 binding analyses. Unexpectedly, the combination of all three RyR
216
isoforms known to be expressed in the brain, resulted is a distinct pattern of activity with rank
217
order rac>aS-PCB 95>aR-PCB 95, with aR-PCB 95 and aS-PCB 95 exhibiting 43.1% (***p≤
218
0.001 vs. rac-PCB95) and 22.4% (*p≤0.05 vs. rac-PCB95) lower activity towards brain RyRs
219
compared with racemate, respectively (Fig 3B).
220
PCB 95 enantiomers differentially alter microsomal Ca2+ transport.
221
Consistent with their direct RyR-activating properties, noncoplanar PCBs have been
222
shown to selectively trigger net Ca2+ release from JSR49, 73 and from brain microsomes49
223
without inhibiting SERCA activity, in a manner prevented with RyR blockers. In this study, we
224
interrogated the possible stereoselectivity of aR- and aS- compared to rac-PCB 95 on Ca2+
225
fluxes using the metallochromic Ca2+ dye Arsenazo III and in the presence of active SERCA
226
pump-dependent vesicular Ca2+ uptake as depicted in the Figure 4A. After 180nmole Ca2+
227
were sequentially loaded into the JSR (Fig 4B), addition of DMSO (vehicle, 0.5%) did not
228
elicit a release of actively accumulated Ca2+ (Fig 4B, grey trace). However, addition of aR-
229
PCB 95 (5µM) triggered a nearly 3-fold higher rate of Ca2+ efflux compared to aS-PCB 95,
230
whereas the rate elicited by rac-PCB 95 was intermediate (Fig 4B and C). Compared to
231
racemate, the initial rate of Ca2+ release elicited by aR-PCB 95 and aS-PCB 95 are 70.9%
232
(***p≤0.001 vs. rac-PCB95) faster and 38.6% (***p≤0.001 vs. rac-PCB95) slower,
233
respectively (Fig 4D).
ACS Paragon Plus Environment
Page 12 of 42
Page 13 of 42
Environmental Science & Technology REVISION manuscript for EST
234
RyR isoforms in combination with inositol 1,4,5-trisphosphate receptor (IP3R) have
235
been shown to mediate a physiological process CICR, representing a fundamentally
236
important Ca2+ signaling mechanism in a broad numbers of cell types38, 74-77. Previous study
237
has shown that racemic PCB 95 enhances CICR by increasing the sensitivity of RyR1 to
238
Ca2+51. We therefore used JSR to test whether PCB 95 enantioselectively influenced CICR.
239
Figure 5 showed that JSR actively loaded with Ca2+ to ~70% of their capacity retain
240
accumulated Ca2+ when either DMSO (0.5%) or a low concentration (250nM) of PCB 95 is
241
introduced 2.5min prior to eliciting CICR by addition of 90nmol Ca2+ to the vesicle medium
242
(Fig 5A). Their presence enhanced CICR with the rank potency: aR-PCB>rac>aS-PCB
243
95>DMSO (Fig 5B).
244
In general, the stereoselectivities observed with aR- over aS-PCB 95 in both [3H]Ry
245
binding and Ca2+ flux assays were in very good agreement with our previous results obtained
246
with enantiomers of the less environmentally relevant congener PCB 13625. In this regard,
247
aR-PCB 95, which we presume is (-)-PCB 95 based on the results of Xu and coworkers 61, is
248
more active towards the major isoforms RyR1 and RyR2 when expressed individually,
249
consistent with the stereoselectivity assigned for PCB 136 enantiomers25. However, it should
250
be emphasized that; (1) the separation in potency and efficacy of (-)- over (+)-PCB 136
251
toward RyR1 and RyR2 was significantly more pronounced compared to our current findings
252
with aR- over aS-PCB 95, and (2) the greater relative potency of rac-PCB 95 compared to
ACS Paragon Plus Environment
Environmental Science & Technology REVISION manuscript for EST
253
either enantiomeric form where multiple RyR isoforms are expressed, as they are in brain
254
and several other tissues. Nevertheless, the stereoselectivity of PCB 95 enantiomers
255
identified here was significant because PCB 95 has been shown to predominate in recent
256
sampling of many grade schools32, human breast milk, blood and other tissues, and some
257
found enantioselectively enriched54,58, 78-80. Typically noncoplanar PCBs were found to be
258
more persistent with half-lives in human body ranging from 0.4-3 years78, 81 and metabolic
259
elimination rates averaging about 6 years82.
260
PCB 95 enantiomers differentially alter Ca2+ dynamics in hippocampal neurons
261
How the observed pattern of stereoselectivity towards RyRs for PCB 95 translated to
262
their ability to alter Ca2+ signals is known to be important for regulating excitability, but the
263
proper development of neuronal networks83 has not been previously investigated. Single cell
264
real-time Ca2+ imaging techniques were therefore used to measure both acute responses in
265
terms of neuronal network excitability, as well as the consequences of chronic exposure (12
266
days in vitro; from 2 to 14 DIV). Two functional endpoints were measured in neuronal
267
cultures from mouse hippocampus, (1) patterns of SOCs known to be important for long-term
268
activity-dependent neuronal plasticity, and (2) properties of Ca2+ transients evoked by
269
electrical stimulation. For acute responses, SCO patterns were analyzed from mature
270
networks at 14 DIV 10min before and after focal perfusion of vehicle or PCB 95 (500nM)(Fig
271
6A). At 14 DIV, neurons maintained well-defined SCO activity and addition of DMSO did not
ACS Paragon Plus Environment
Page 14 of 42
Page 15 of 42
Environmental Science & Technology REVISION manuscript for EST
272
significantly alter SCO frequency (Fig 6B) or Ca2+ transient amplitudes by electrical pulses at
273
20Hz (Fig 6D), although DMSO did reduce SCO amplitude by ~15% (Fig 6C; prac (Fig 6C; reductions of 8.5, 21, and 39%, respectively),
278
whereas only aS-PCB 95 caused a 35% (p
