Dicer Is Required for Maintenance of Adult Pancreatic Acinar Cell Identity and Plays a Role in Kras-Driven Pancreatic Neoplasia

The role of miRNA processing in the maintenance of adult pancreatic acinar cell identity and during the initiation and progression of pancreatic neoplasia has not been studied in detail. In this work, we deleted Dicer specifically in adult pancreatic acinar cells, with or without simultaneous activation of oncogenic Kras. We found that Dicer is essential for the maintenance of acinar cell identity. Acinar cells lacking Dicer showed increased plasticity, as evidenced by loss of polarity, initiation of epithelial-to-mesenchymal transition (EMT) and acinar-to-ductal metaplasia (ADM). In the context of oncogenic Kras activation, the initiation of ADM and pancreatic intraepithelial neoplasia (PanIN) were both highly sensitive to Dicer gene dosage. Homozygous Dicer deletion accelerated the formation of ADM but not PanIN. In contrast, heterozygous Dicer deletion accelerated PanIN initiation, revealing complex roles for Dicer in the regulation of both normal and neoplastic pancreatic epithelial identity.


Introduction
The microRNA pathway is a critical regulator of gene expression, and Dicer, an RNase III-containing enzyme, is a central component of the microRNA (miRNA) processing machinery. Deregulation of miRNAs has been implicated in a variety of biological process including cancer [1], [2]. In mice, global loss of Dicer leads to lethality before embryonic day 7.5 [3]. Conditional inactivation of Dicer in numerous cell types from tissues such as the immune system [4], retina [3], cortex, hippocampus [5] and ovary [6], has proven the essential function of Dicer in a number of tissue-specific contexts.
Previous work has shown that miRNA levels fluctuate during cancer initiation and progression. Both tumor suppressor and oncogenic miRNAs have been described [7], [8]. In general, tumor cells display a global downregulation of miRNA expression [9]. Recently, several reports have indicated that Dicer may function as a haploinsufficient tumor suppressor, as heterozygosity for Dicer enhances tumor development, whereas enforced Dicer homozygous deletion causes inhibition of tumorigenesis in certain tumor models [10], [11], [12].
Recent publications have shown that pancreatic acinar cells display unexpected plasticity, and are capable of undergoing dramatic changes in differentiation in the settings of both chronic pancreatitis and pancreatic cancer. Lineage tracing approaches have provided evidence that acinar cells in the adult pancreas have the potential to transdifferentiate into metaplastic ductal cells [13]. This acinar-to-ductal metaplasia (ADM) event precedes the formation of pancreatic intraepithelial neoplasia (PanIN) [14], [15], [16], [17]. Acinar cells have similarly been demonstrated to be an effective cell-of-origin for Kras G12D -induced PanIN and pancreatic ductal adenocarcinoma (PDAC) [18], [19], [20].
Deletion of Dicer at the onset of pancreatic development results in defects in all pancreatic lineages [21], while loss of Dicer in the pancreas at a late gestational stage (E18.5) results in defects in acinar cell differentiation and morphogenesis [22]. Interestingly, the adult pancreas seems to be extremely sensitive to changes in the abundance of Dicer [23]. In the Dicer hypomorphic mouse created by Morita et al [23], Dicer expression was reduced to 20% in all tissues and the only observed abnormality was in the adult pancreas where multinucleated cells were found and both of the endocrine and exocrine cells had unusual organization.
While previous findings suggest important roles for Dicer during pancreatic development, its role in adult acinar cells has not yet been assessed. In the present study, we triggered loss of Dicer in the adult exocrine pancreas with or without simultaneous activation of oncogenic Kras G12D . In normal pancreata, deletion of both copies of Dicer resulted in the progressive loss of differentiated acinar cells, associated with the initiation of epithelial-to-mesenchymal transition (EMT). These changes were additionally accompanied by ADM and pancreatic fibrosis. In concert with Kras G12D activation, homozygous Dicer deletion accelerated ADM formation, but not PanIN initiation. In contrast, PanIN formation was enhanced in the setting of Dicer haploinsufficiency. Regardless of genotype, PanIN lesions were observed to have retained Dicer expression. Thus, in addition to being required for the maintenance of acinar cell identity, fractional changes in Dicer gene activity may have significant impact on the pancreatic response to oncogenic stimuli.

Mouse lines
Dicer fl/fl mice were crossed with Mist1 CreERT2/+ mice (gift from Stephen F. Konieczny, University of Indiana). An additional loxstop-lox Rosa26 YFP allele (hereafter referred to as LSL-YFP) was incorporated as a lineage marker. The resulting Mist1 CreERT2/+ ; LSL-YFP; Dicer fl/wt mice were further intercrossed or outcrossed onto a conditional LSL-Kras G12D allele, as previously described [18]. Mice were euthanized by cervical dislocation under Isoflurane anesthesia. There was no surgery performed and animals exhibiting discomfort were euthanized. All procedures were performed under the approval of the Johns Hopkins University School of Medicine Animal Care and Use Committee guidelines (IACUC, protocol number M012M353).

Tamoxifen induced Dicer deletion
Induction of CreERT2 activity was initiated at 6-8 weeks of age by administering 5 mg of tamoxifen (Sigma, 10540-29-1) for 3 consecutive days via intra-peritoneal (IP) injections. Control littermates were injected with corn oil alone.

Pancreatic acinar isolation and in vitro culture
Acinar units were isolated as described previously [24]. Briefly, mouse pancreata were perfused from common bile duct with 0.375 mg/ml Collagenase-P (Roche, 11213857001) in Hank's balanced salt solution (HBSS). Subsequently, pancreata were harvested and incubated in 37uC water bath for 11 mins. Following multiple washes with HBSS and 5% FBS, hand-picked acini were cultured in RPMI 1640 supplemented with 10% fetal bovine serum (FBS) (Invitrogen), soybean trypsin inhibitor (Sigma) and antibiotics in low attachment 24 well plates (Corning). Acini were treated with either DMSO or with 4-hydroxytamoxifen (Sigma, H7904) at 20 ng/ml for 5 consecutive days to induce Cremediated deletion of Dicer in vitro.

Immunohistochemistry and immunofluorescence
Pancreata were harvested at indicated time points and were fixed in 4% paraformaldehyde, followed by standard paraffin or OCT embedding. Tissue was then cut into 5-10 mM sections. Incubations with primary antibodies were performed overnight at 4uC using standard techniques in PBS containing 0.2% Triton and 3-3-Diaminobenzidine tetrahydrochloride (Vector Labs) was used as a chromogen. Bright-field images were acquired using an Olympus BX40 light microscope. For immunofluorescence, secondary antibodies were obtained from Jackson ImmunoResearch and used at 1:300 dilution. Samples were mounted with Fluorescence Mounting Medium (Dako, S3023). Slides were imaged on the Nikon A1 confocal microscope system. ImageJ was used to quantify the areas of specific lesions. Student t-test was performed for compare different groups.

Dicer knockout in mature pancreatic acinar cells
In order to investigate the role of Dicer in the maintenance of adult acinar cell differentiation, we generated Mist1 CreERT2 ; Dicer fl/fl ; LSL-YFP mice [18]. Tamoxifen was administered to 8-week-old adult mice via intraperitoneal injection. We followed morphological changes in pancreata up to 6 months after tamoxifen injection (Fig. 1A). Successful Cre-mediated recombination could be visualized by the expression of YFP in more than 90% of the acini (Fig. 1B, C) and the expression of YFP was highly correlated with the elimination of Dicer protein, as assessed by Dicer immunohistochemistry (Fig. 1D, E). During the time course of this study, the most extensive pancreatic abnormalities were observed at one month following the deletion of Dicer ( Fig. 1F-K, Fig. S1). In some cases, pancreatic lobes were characterized by extreme acinar cell atrophy, with only remnants of ductal like structures left behind (Fig. 1I). This was accompanied by a prominent inflammatory infiltrate (Fig. 1I). In the most severe scenario, areas of fibrosis were observed to replace the majority of normal pancreatic acinar tissue (Fig. S1A, B). By six months post tamoxifen administration, the histology of pancreata resumed normality with little sign of tissue damage (Fig. 1K). Noticeably, at six months after the deletion of Dicer, regions of YFP expression became more sporadic (Fig. S1, Fig. S2). The histology of the pancreata from Mist1 creERT2 ; Dicer fl/wt animals remained normal across all time points (Fig. 1G).

Dicer is required for the maintenance of mature acinar cell identity
We sought to characterize changes occurring following acinar cell-specific Dicer deletion in additional detail. We used two markers of cell polarity, CD49f (integrin subunit a6) and phalloidin. CD49f forms a heterodimer with integrin b1 subunit and is present on the basal membrane of pancreatic acini [25]; while phalloidin stains the actin web concentrated at the apical side of acinar cells. Using immunofluorescent staining, we found that these polarity markers were mislocalized in the acinar cells of the Dicer knockout. CD49f translocated to the lateral membrane ( Fig. 2) and the expression level of CD49f was significantly increased compared with control acini. Phalloidin showed a diffuse pattern of staining in the Dicer deleted animals, rather than labeling apically-oriented actin filaments (Fig. 2), indicating a loss of cell polarity.
Following Dicer deletion, pancreatic acinar cells also lost their classic rosette-like epithelial organization (Fig. 2B, Fig. 3B, D).  This phenotype was similar to what was observed by Morita et al [23] in the Dicer hypomorphic pancreas. In addition, acinar cells lacking Dicer developed a partial mesenchymal phenotype. This process of EMT was documented by decreased expression of the epithelial marker Ecad, EpCam and increased expression of the mesenchymal markers Vimentin and Ncad (Fig. 3).
Furthermore, in the absence of Dicer, some of the acinar cells showed evidence of ADM (Fig. 4). This was indicated by appearance of the YFP positive lineage marker in some of the duct-like structures, which were labelled by the lectin Dolichos Biflorus Agglutinin (DBA) as well as an antibody against Sox9 (Fig. 4, Fig. S1C, D). Following Dicer deletion, proliferative responses were observed in both acinar and nonacinar cells, presumably as a result of signals from pancreatic injury (Fig. 4A,  B). An extensive quantification of Ki67 positive cells following tamoxifen administration revealed that maximum cellular proliferation occurred in the acinar cells at one month after loss of Dicer, with less frequent proliferation observed in other components of pancreas including ducts, islets and stroma (Fig. S2).
In summary, we observed a major identity shift in the acinar population upon homozygous Dicer knockout. Acinar cells lost apical-basal polarity and transdifferentiated into ductal or mesenchymal cell types, suggesting that Dicer is required for the maintenance of acinar cell differentiation.

In vitro acinar cultures confirm a cell autonomous effect of Dicer deletion
In the Dicer knockout pancreas, an activated inflammatory response is observed (Fig. 1). Based on the fact that morphological changes in pancreatic acinar cells can be induced by pancreatic inflammation alone [13], [26], we endeavored to assess whether the phenotypes we observed after Dicer deletion in acinar cells were a primary effect of Dicer knockout or a secondary effect of tissue injury. For these studies, we utilized an in vitro acinar culture system [24]. In this setup, the macrophages, neutrophils and other components of the immune system were absent. Isolated acini from Mist1 CreERT2/+ ; LSL-YFP; Dicer fl/fl mice were handpicked and cultured in the presence of 4-hydroxytamoxifen (4-OH) or DMSO control. Acini incubated with 4-OH showed The Function of Dicer in the Adult Pancreatic Acinar Cells PLOS ONE | www.plosone.org down-regulation of Ecad (Fig. 5A, K vs. 5F, P) and up-regulation of Vimentin (Fig. 5L vs. 5Q); similar to what we observed in vivo (Fig. 3). Acini incubated with DMSO control maintained their epithelial identity (Fig. 5K, L, M, N, O). In these experiments, YFP expression following 4-OH treated acini was used as a surrogate marker for successful deletion of Dicer (Fig. 5C, H, M, R). Amalyse staining was used to confirm the acinar cell type (Fig. 5B, G). These studies demonstrate a cell autonomous requirement for Dicer in the maintenance of acinar cell identity.

Dicer haploinsufficiency enhances PanIN formation in an oncogene-dependent manner
Loss of Dicer in normal adult pancreatic acinar tissue resulted in the initiation of ADM, which is a proposed precursor of PanIN [16], [27], [17]. We therefore sought to determine whether loss of Dicer would facilitate PanIN initiation. Recent studies have shown that the Mist1 CreERT2/+ ; LSL-Kras G12D mouse model fully recapitulates the initiation and progression of early human pancreatic neoplasia [18]. To test the function of Dicer in the context of oncogenic Kras-driven pancreatic neoplasia, we crossed Dicer fl/fl mice onto the Mist1 CreERT2/+ ; LSL-Kras G12D mice. We generated Mist1 CreERT2/+ ; LSL-Kras G12D ; Dicer fl/fl (Dicer-floxed- Kras) and Mist1 CreERT2/+ ; LSL-Kras G12D ; Dicer fl/+ (Dicer-het-Kras) mice, and compared them with Mist1 CreERT2/+ ; LSL-Kras G12D ; Dicer wt/wt (Dicer-wt-Kras) mice. Interestingly, immunohistochemistry for Dicer in the pancreata of Dicer-wt-Kras mice demonstrated a tissue-wide decrease of Dicer protein (Fig. 6A vs  B). This observation is in line with the hypothesis that the global down-regulation of miRNA expression in tumors may be driven by alterations in the expression levels or activity of Dicer [28]. Notably, in the same sections, PanIN lesions displayed higher levels of Dicer expression (Fig. 6B, arrows). In the Dicer-floxed-Kras mice, there was an almost complete loss of cytoplasmic Dicer protein in the acinar compartment, although some nuclear Dicer The Function of Dicer in the Adult Pancreatic Acinar Cells PLOS ONE | www.plosone.org staining remained, likely representing nonspecific signal (Fig. 6C). Strikingly, the vast majority of metaplastic and neoplastic lesions preserved a moderate level of Dicer protein (Fig. 6D), suggesting selective pressure to retain at least some level of Dicer expression during the initiation of pancreatic neoplasia. This is consistent with recent work showing certain types of tumors select against full loss of Dicer function [10].
We quantified the pancreatic phenotypic abnormalities, including ADM and PanIN, in both the Dicer-floxed-Kras and Dicer-het-Kras mice. We observed that Dicer-het-Kras mice developed PanINs at earlier time points and at much higher frequency than the Dicer-floxed-Kras mice and the Dicer-wt-Kras mice in the same cohort (Fig. 6E-H). At the two-month time point, Dicer-het-Kras mice had PanIN comprising approximately 4% of total pancreatic surface area, compared to the 0.8% in Dicer-floxed-Kras mice and 1% in Dicer-wt-Kras mice (Fig. 6H). In contrast, Dicer-floxed-Kras mice have an increase in ADM compared with Dicer-het-Kras and Dicer-wt-Kras pancreata. (Fig. 6H). This is consistent with our previous assumption, indicating that Dicer loss accelerates the formation of ADM under conditions of Kras activation, but in the absence of Dicer these ADM lesions are unable to further progress to PanIN.

Discussion
Dicer is a master regulator of the miRNA pathway. The deletion of Dicer leads to loss of mature miRNAs [29,30]. To assess the requirement of miRNAs in adult acinar tissue, we combined a floxed Dicer allele with an exocrine pancreas specific, tamoxifen-inducible Cre driver, Mist1 CreERT2 [18]. In this report we show that Dicer is essential for the maintenance of normal acinar cell identity, with homozygous Dicer deletion resulting in loss of acinar cell polarity, and the induction of both ADM and EMT. When combined with activation of oncogenic Kras, homozygous Dicer deletion leads to accelerated ADM formation but no change in the rate of PanIN initiation or progression. We also present evidence that PanIN lesions select against complete loss of Dicer, and that Dicer haploinsufficiency accelerates PanIN initiation.
In non-neoplastic pancreas, histologic changes associated with conditional Dicer deletion were manifested within 72 hours following tamoxifen injection (data not shown). These cellular responses included loss of cell polarity and the induction of EMT and ADM, indicating an overall increase in cellular plasticity. In vitro induction of Dicer deletion in isolated pancreatic acini confirmed that these changes represented a cell autonomous effect of Dicer loss. In the in vivo setting, we did observe a robust inflammatory response after Dicer deletion (Fig. 1). In fact, some of the hyperplastic ductal-like structure we observed were not of apparent acinar cell origin, based on the absence of a heritable lineage marker (Fig. S1). While we cannot entirely rule out the possibility that the absence of lineage marker expression is due to mosaic Cre activity, these structures may have arisen from ductal or other cell populations as a non-cell autonomous response to acinar cell injury.
In the absence of Kras activation, acinar cells eventually regenerated following widespread Dicer deletion. We observed increasingly patchy YFP expression in the regenerated pancreas (Fig. S1, Fig. S2). We believed that the expanding pancreatic exocrine tissue originated from acinar cells that had escaped Dicer deletion [13], [31]. However, we cannot exclude other possibilities such as a transdifferentiated and/or a progenitor cell population contributing to the regenerated pancreata [32]. In fact, we observed a general proliferative response even in non-acinar tissue after Dicer deletion (Fig. 4B, Fig. S2).
When accompanied by Kras activation, ADM lesions persisted and progressed. Based on persistent immunohistochemical labeling, these ADM and PanIN lesions seemed to select against complete loss of Dicer. This observation is in line with multiple cancer models in which enforced Dicer deletion cause inhibition of tumorigenesis, and tumors from Dicer fl/fl animals typically maintain one functional Dicer allele [10], [11], [12], [33]. One potential limitation of our study is that both the floxed Dicer alleles and LSL-Kras G12D allele were recombined simultaneously in response to tamoxifen administration. One possibility is that during different stages of pancreatic tumor initiation and progression, there are divergent requirements for different levels of Dicer activity. Further studies that temporally separate the Dicer deletion and Kras activation events, as might be achieved using a tetracycline-regulated system [34,35], are needed to further investigate time-and tumor stage-dependent influences of Dicer.
While this manuscript was under preparation, a study by Morris et al was published describing the role of Dicer in the regulation of Kras-mediated ADM and PanIN [36]. This study reported that loss of Dicer compromised acinar identity and promoted Kras driven ADM. At the same time, Dicer loss did not accelerate PanIN or PDAC development. Overall, their findings are comparable to our results. The major differences between this paper and the current study involve the use of different Cre driver lines. In the manuscript by Morris and colleagues, a Pdx1:Cre line was utilized in which Cre activity is initiated in multi-lineage embryonic pancreatic progenitors at E12 [37]. In this setting, Dicer is conditionally deleted in all pancreatic epithelial lineages, while in our study, we have interrogated the function of Dicer specifically in adult acinar cells. Using this approach, we demonstrate that Dicer loss restricted to adult acinar cells is sufficient to induce an ADM reprogramming process, as characterized by the induction of DBA and Sox9 expression. A recent study demonstrated that the upregulation of Sox9 in the acinar population is an early tumor-initiating event [38]. Thus, miRNA deregulation in the acinar compartment may induce an early cellular change that renders acinar cells more prone to additional oncogenic stimuli, including Kras activation.
In conclusion, we have established that Dicer is essential for the maintenance of acinar cell identity in the adult post-differentiated exocrine pancreas. Different levels of Dicer may be required at different stages of Kras-driven pancreatic tumorigenesis. Further work is needed to examine the functions of individual microRNAs and the time-dependent role of Dicer during pancreatic cancer initiation and progression. Figure S1 Dicer deletion leads to pancreatic fibrosis.