Correction: Supervillin is a Component of the Hair Cell's Cuticular Plate and the Head Plates of Organ of Corti Supporting Cells

[This corrects the article DOI: 10.1371/journal.pone.0158349.].


s and outer p
llar cells, and proximal to the apicolateral margins of inner phalangeal cells, adjacent to the junctions with neighboring hair cells.Overall, supervillin localization suggests this protein may shape the surface structure of the organ of Corti.

Introduction

The hair cells of the inner ear are crucial to detection of stimuli associated with hearing and balance.Protruding from the apical surface of each hair cell is an array of F-actin-based stereocilia, forming the mechanosensitive hair bundle [1].Each stereocilium tapers at its base, inserting as a densely-packed rootlet into the underlying cuticular plate (CP), a stiff actin gel hypothesized to anchor the stereocilia to hold them upright [2,3].The CP may also be involved in mechanical adaptation following s ereocilia deflection and control vesicular transport [4].However, the precise roles of the CP in hair cell development and maintenance have been difficult to establish, in part due to lack of knowledge of the protein composition of this unique structure.

In vitro, gel-like meshworks of F-actin form in the presence of actin-bundling proteins, which organize and cross-link neighboring filaments [5].The mechanical properties of actin gels depend on the specific type and concentration of actin-bundling proteins involved Within the CP meshwork, cross-linkers connect adjacent actin filaments, and other linkers connect stereociliary rootlets to the CP or the CP to the overlying plasma membrane [6][7][8].However, the identity of these various linkers remains unknown [9].

In the mouse organ of Corti (S1 Fig), apical regions of hair cells and neighboring non-sensory supporting cells, including Deiters', pillar, and inner phalangeal cells, are tightly connected by junctional proteins, forming the reticular lamina [10].The apical region of each Deiters' and pillar cell expands outward, forming a head plate filling the space between neighboring hair cells [11].The reticular lamina assists in maintaining organ of Corti tissue integrity and provides a physical barrier separating the differing ionic contents of the cochlea, endolymph and perilymph [12][13][1 ].Circumferential F-actin belts in both hair cells and supporting cells are associated with the cell junctions, and the supporting cell belts are thought to be involved in myosin-dependent scar formation upon loss of nearby hair cells [15][16][17].

Supervillin, a ~205-kD villin/gelsolin superfamily protein [18], directly binds and crosslinks F-actin [19,20].Supervillin also regulates myosin II contractility subjacent to plasma membranes [21][22][23].Towards the protein C-terminus is a series of gelsolin homology domains and a villin headpiece [18] (Fig 1B), which surprisingly do not have affinity for F-actin in cell culture models [19,20].Instead, the supervillin N-terminal region binds the myosin II heavy chain at one site and F-actin through three other nearby sequences [20,23].In confluent kidney epithelial cells, supervillin co-localizes with E-cadherin at sites of lateral cell-cell co

act, where it is thought to be
involved in cytoskeletal assembly or stabilization at adherens junctions [18].Here, we identify supervillin as a potential linker between actin filaments in the developing CP and within cochlear supporting cells.


Materials and Methods Animals

Zebrafish (Danio rerio) strains Gt(macf1a-citrine) ct68a/+ [24], GFP-fascin 2b [25,26], and wildtype strain Tübingen were used as well as White Leghorn chickens (Gallus gallus) and FVB/NJ mice (Mus musculus).All animals were kept with the approval of the Case Western Reserve University Institutional Animal Care and Use Committee (protocol numbers 2012-0187, zebrafish, 2013-0031, mouse, and 2011-0161, chicken).Zebrafish were euthanized by chilling at 4 degrees Celsius, and mice and ch

kens wer
euthanized by carbon dioxide inhalation followed by cervical dislocation.All mouse, zebrafish, and chicken experimental protocols were approved by the Institutional Animal Care and Use Committee at Case Western Reserve University.


RNA-seq

Isolation of chicken hair cells and RNA-seq were performed [27].Potential orthologs of transcripts that did not a

gn to an annotated chicken gene were identified by compar
son with the Swiss-Prot database using NCBI BLAST.Exons of human SVIL aligned to the chicken genome are displayed in Fig 1A using the Integrated Genome Browser through Galaxy [28].


Reverse transcription-polymerase chain reaction (RT-PCR)

Isolation of hair cells and macular tissue from adult mice and zebrafish and generation of cDNA has been described [27,29].Primer pairs used are in S1 Table.


Whole-mount mRNA in situ hybridization

Seven-dpf zebrafish embryos were used to synthesize cDNA [29].Fragments of svila cDNA and svilc cDNA were amplified by PCR using primers svila_insitu_fwd 5ʹ-ACAAACAGATG GAGAGCACACAAC-3ʹ, svila_insitu_rev 5ʹ-ACATGAGTACACGGAACAAAGACTG-3ʹ, svilc_insitu_fwd 5ʹ-AACGGATCGCTCGCTACAAAG-3ʹ, and svilc_insitu_rev 5ʹ-ACTTCATC CACTGTGATGGG-3ʹ.Resulting products were cloned into pCRII vectors (Invitrogen, USA), from which sense and antisense probes were synthesized for in situ hybridization [29].


Immunofluorescence of mouse tissues

Vestibular tissue from mice at P1, P3, and 6 months of age w re dissected and then immediately fixed 10 minutes in ice-cold methanol.For labeling of cochlear hair cells, the organ of Corti was removed from mice of different ages, cultured overnight [30], and then fixed 10 minutes in ice-cold methanol.

Following fixation, vestibular or cochlear tissue was washed in phosphate-buffered saline (PBS), blocked in 2% bovine serum albumin (BSA) for 1 hour, and then incuba

0) and Alexa 546 goat
nti-mouse IgG (1:200 Invitrogen, USA).Phalloidin labeling of Gt(macf1a-citrine) ct68a/+ fish was as described previously [27].Fish were imaged under a 40 × objective on a confocal microscope (Leica, Germany).


Antisense morpholinos

A morpholino antisense oligonucleotide targeting the translation start site of svila was synthesized by Gene Tools, LLC (USA) with the sequence 5ʹ-GTGCAATTCGCTCCTTCCTGTTCAT-3ʹ along with a 5-base pair (bp)-mismatch control oligonucleotide with the sequence 5ʹ-GTGCAATTCGCTCCTTCCTGTTCAT-3ʹ.Zebrafish embryos at the single-cell stage were injected with 150 pg of either the Svila or control morpholinos, and phenotype analysis was conducted at 4 dpf by immunolabeling, as described above, and image analysis using Leica Confocal Software (Leica, Germany).In the hair cells of immunolabeled morphant and control fish, the fluorescence intensity of anti-Svila-associated signal was measured at the CP using the Leica Confocal Software and then compared to the intensity of anti-α-

bulin-associated signal
measured immediately below the CP.The average rati of anti-Svila fluorescence intensity to anti-α-tubulin fluorescence intensity in control and morphant fish is reported ± the standard error of the mean.


Results and Discussion


Supervillin is expressed in vertebrate hair cells

To identify candidate actin-interacting proteins potentially involved in shaping the unique cytoskeletal structures of hair cells, we examined the transcriptome of manually-isolated chicken hair cells by RNA-seq.SVIL mRNA encoding supervillin was highly abundant (Fig 1A ), with 4.09 reads per kilobase per million mapped reads (RPKM).This was more abundant than several genes known to be expressed in hair cells, including protocadherin 15 (PCDH15) mRNA [32], which had an RPKM value of 2.09.Supervillin binds myosin II and F-actin with regions near the protein N-terminus (M and A1, A2, A3, respectively, in Fig 1B) [19].All four binding regions [19,33] are conserved in vertebrates (Fig 1C).Based on this information, w hypothesized supervillin may localize to specific actin-rich organelles in the hair cell, as it localizes to invadopodia in MDA-MB-231 metastatic breast carcinoma cells [34] or contractile rings in dividing HeLa cells [35].

To determine whether supervillin family members are expressed in hair cells of other vertebrates, we conducted RT-PCR using RNA from isolated zebrafish and mouse hair cells.Zebrafish have two or more paralogs for many mouse and human genes due to a whole genome duplication event in an evolutionary ancestor of teleost fishes [36].A search of the zebrafish genome resulted in identification of four zebrafish supervillin genes, svila on chromosome 12 (XM_009306580.1,56.94% identity with human SVIL [XM_011519633.1] by alignment using Clustal Omega), svilb on chromosome 2 (XM_009298867.1, 53.22% identity with human), svilc on chromosome 3 (XM_001344915.5,41.14% identity with human), and svild on chromosome 12 (XM_009306541.1,43.16% identity with human).Svild and svila are on the same chromosome but separated by over 10 million base pairs, suggesting they are distinct genes.Expression of svila and svilc gene products were detected in zebrafish hair cell cDNA using intragenic primer sets (Fig 2A).We were unable to detect expression of svilb and svild in zebrafish hair cells.However, expression of these genes was detected in zebrafish whole maculae (Fig 2A), indicating they may not be expressed in hair cells or are expressed at much lower levels.Svil gene expression was also detected in mouse hair cell cDNA (Fig 2B).To confirm expression of svila and svilc in the zebrafish ear, we performe

mRNA in situ hybridization on 4-days postfertilization (dpf) embryos.Both svila and svilc were detected in the ear at the anterior ma
ula (Fig 2C -2H) as well as the posterior macula and cristae (data not shown).


Supervillin localizes to the CP in mouse vestibular and cochlear hair cells and to apicolateral margins of cochlear supporting cells

To determine whether supervillin could be involved in shaping F-actin structures near the apical surface of hair cells, we examined localization of supervillin protein in the murine ear by immunolabeling.Specificity of the H340 antibody used to detect mouse SVIL has been successfully demonstrated previously [31,37].In methanol-fixed mouse vestibular hair cells, supervillin localizes to the CP at both postnatal day 1 (P1) (Fig 3A) and adult stages (Fig 3B and 3C).Co-labeling with phalloidin and an antibody to tubulin, which labels the somatic microtubules underlying the CP, showed that SVIL localizes to the region between the hair bundle and the somatic microtubules, at the region of the CP (Fig 3D -3F).This labeling pattern was consistent in both type I (Fig 3D ) and type II (Fig 3E) vestibular hair cells.In the mouse cochlea middle turn at P1 and P3, supervillin localizes to the CP and near the apical junctional complexes of supporting cells that surround hair cells (Fig 3G , 3H, 3K and 3L), including the head plates of Deiters' and outer pillar cells and the apicolateral margins of inner phalangeal cells [10,15,38].SVIL also co-localizes with F-actin near the apical surface of developing hair cells at the apical turn of the cochlea at P1 (Fig 3I and 3J).CP labeling is generally stronger at P1 (Fig 3G and  3H) and weakens by P3 (Fig 3K and 3L), though there was some variability from sample to sample.This may be due to thickening of the CP as hair cells develop [39], which may obscure access by the SVIL antibody.Alternatively, the apical epithelia of the organ of Corti undergoes re-shaping during this time [40], and supervillin may be replaced by another cytoskeletal protein.As with the vestibular hair cells, co-labeling of cochlear hair cells with anti-SVIL and antitubulin showed that SVIL labels the CP, between the somatic microt bules and the hair bundle  .Some supervillin-associated signal was occasionally detected in the hair bundle; however, this signal was not consistent and did not seem to follow any specific pattern.

The localization of supervillin near the apicolateral margins of supporting cells is interesting, as large circumferential belts of F-actin and myosin II are found at these regions, associated with tight and adherens junctions with neighboring hair cells [3,10,41].Myosin IIA, myosin IIB, and myosin IIC heavy chain proteins are all expressed during cochlear morphogenesis [42], and myosin IIB heavy chain localizes near the cellular junctions in the developing cochlea [41].Supervillin interacts with both myosin IIA and myosin IIB heavy chains [23].Interestingly, the genes encoding myosin IIA (MYH9) and myosin IIC (MYH14) heavy chains are associated with DFNA17 and DFNA4 nonsyndromic hearing loss, respectively [43,44].To further investigate the precise localization of supervillin in supporting cells, we co-labeled P1 mouse cochleae using antibodies recognizing supervillin and adherens junction marker β-catenin and tight junction marker ZO-1.Supervillin localizes adjacent to β-catenin and ZO-1, and is concentrated on the supporting cell side of hair cell-supporting cell junctions (Fig 3N -3Q).From these data, we propose supervillin is involved in organizing cytoskeletal structure at the circumferential belts in supporting cells, including those of the head plates; this hypothesis is supported by established biochemical properties of supervillin [19,20].In adult mice, the circumferential F-actin belts in supporting cells are wider than those of hair cells [45,46].In cultured epithelial cells, supervillin promotes myosin II contractility and recruitment of F-actin into bundles proximal to the plasma membrane [20].Thus, supervillin may be involved in the development of the specialized wider circumferential belts in supporting cells, but may not be needed for the development of the comparatively thinner circumferential belts in the hair cells.These findings imply that supervillin is involved in not only CP structure, but also in establishing the global integrity of the reticular lamina.Interestingly, vestibular supporting cells did not express supervillin (Fig 3A and 3C), indicating that either the extra structural support established by supervillin is not necessary

r the vestibular epithelia, or a different protein p
ays this role in the vestibular system.This may reflect unique stresses imposed on the reticular lamina by auditory stimuli [47,48].


Supervillin localizes to the zebrafish hair cell CP

To resolve whether supervillin also localizes to the CP of non-mammalian hair cells, and is therefore evolutionarily conserved, we generated novel polyclonal antiserum recognizing a 321-amino acid, N-terminal fragment of zebrafish Svila (Fig 1B).Specificity of our antibody was demonstrated by immunolabeling in zebrafish injected with a morpholino targeting the translation start site of Svila.The fluorescence intensity of anti-Svila labeling at the CP of 4-dpf Fixation conditions necessary for successful Svila immunolabeling with our new antiserum were incompatible with F-actin labeling.Thus, to determine localization of Svila relative to the hair bundle, we carried out immunolabeling in GFP-fascin 2b transgenic fish, which maintain correct localization of fluorescently-tagged hair bundle-specific protein fascin 2b [25,26].In 4-dpf embryos, Svila localizes immediately below the bundle, at the location of the CP (Fig 4A and 4B) but was not detected in the supporting cells.Localization of Svila to the CP is further confirmed by immunolabeling in Gt(macf1a-citrine) ct68a/+ zebrafish expressing Acf7a-Citrine fusion protein [24] (Fig 4C -4E), which circumscribes the CP in higher concentrations and is enmeshed in the CP in lower concentrations [27].Svila localizes throughout the region circumscribed by Acf7a-Citrine (Fig 4C , 4E and 4F).We therefore conclude supervillin localizes to the CP of zebrafish hair cells.

Based on its localization in mouse and zebrafish hair cells and its known cytoskeletal functions [19,20], we propose that supervillin contributes to CP shape and integrity (Fig 5A ).Also of interest is localization of supervillin near the developing cellular junctions of supporting cells in the organ of Corti, where supervillin may serve to organize actin filaments and myosins (Fig 5A and 5B).The fact that supervillin was not detected in inner pillar cells may reflect the unique shape of their head plate, which extends to cover part of the process of the neighboring outer pillar cell [11].It is thus possible that different molecular mechanisms are involved in shaping the F-actin belts of the inner pillar cells.Further genetic studies of supervillin may advance our understanding of the development of the poorly understood CP and the

Fig 1 .
1
Fig 1.The gene encoding supervillin is expressed in chicken hair cells.(A) Detection of SVIL mRNA in chicken hair cells by RNA-seq.Depth of reads aligned to the chicken genome, with TopHat-predicted splice junctions (red) and exons of human SVIL aligned to the chicken genome (blue).(B) Major functional domains of supervillin: M, myosin II-binding region; A1-A3, actin-binding regions 1-3; G, gelsolin repeats; and VHP, villin headpiece.Purple line indicates region of mouse SVIL reco nized by the H340 antibody (Oh et al., 2003), and the blue line indicates the region of zebrafish Svila recognized by novel antiserum.(C) Alignment of vertebrate supervillin protein sequences using Clustal/Jalview and default parameters.The regions of bovine supervillin shown to bind the myosin II heavy chain and F-actin [19] are displayed.doi:10.1371/journal.pone.0158349.g001




(1:100, 6-11B1, Sigma, USA), mouse monoclonal anti-β-catenin (1:200, BD Transduction Laboratories, USA), and mouse monoclonal anti-ZO-1 (Invitrogen; Cat.#: 339100).Secondary antibodies were Alexa Fluor 488 chicken anti-rabbit IgG (1:200) and Alexa Fluor 546 goat anti-mouse IgG (1:200, Invitrogen, USA).Alexa Fluor 633 phalloidin (1:50, Invitrogen, USA) was used.Tissue mounted in Vectashield (Vector Laboratories, USA) was imaged on a Leica SP2 or SP8 confocal microscope using a 40 × or 63 × objective (Leica Confocal Software, Leica, Germany).


Fig 2 .
2
Fig 2. Supervillin is expressed in the mouse and zebrafish ear.(A) RT-PCR detection of svila and svilc mRNAs in zebrafish hair cells using two primer pairs to detect svila mRNA [RT plus (lanes 1,3), RT minus (lanes 2,4)] and two primer pairs to detect svilc mRNA [RT plus (lane 5,6), RT minus (lane 7,8)].Svilb [RT plus (lane 9), RT minus (lane 10)] and svild [RT plus (lane 11), RT minus (lane 12)] mRNAs were detected in zebrafish maculae.(B) RT-PCR of Svil mRNA from mouse hair cells [RT plus (lane 1), RT minus (lane 2)].(C-H) RNA in situ hybridiza