Abstracts

INTRODUCTION

Precursor lesions of the breast are considered to be entities with high potential to progress toward neoplastic transformation, but they lack the ability to invade and metastasize and, in this sense, are premalignant.¹1. Allred DC, Mohsin SK, Fuqua SA. Histological and biological evolution of human premalignant breast disease. Endocr Relat Cancer. 2001;8(1):47-61. This broad concept includes most of the diagnostic categories exhibiting atypia, such as atypical ductal hyperplasia (ADH), atypical lobular hyperplasia (ALH), ductal carcinoma in situ (DCIS) and lobular carcinoma in situ (LCIS). Although presence of atypia alone is a robust marker for association with cancer,²2. Dupont WD, Page DL. Risk factors for breast cancer in women with proliferative breast disease. N Engl J Med. 1985;312(3):146-51.−⁴4. Page DL, Dupont WD. Anatomic indicators (histologic and cytologic) of increased breast cancer risk. Breast Cancer Res Treat. 1993;28(2):157-66. some other lesions not necessarily harboring atypia or hyperplasia, such as microglandular adenosis and papillary lesions, have also been associated with invasive carcinoma.⁵5. Papotti M, Gugliotta P, Ghiringhello B, Bussolati G. Association of breast carcinoma and multiple intraductal papillomas: an histological and immunohistochemical investigation. Histopathology. 1984;8(6):963-75.−⁷7. Wang J, Costantino JP, Tan-Chiu E, et al. Lower-category benign breast disease and the risk of invasive breast cancer. J Natl Cancer Inst. 2004;96(8):616-20. Recently, microarray analysis on the triple negative subtype of ductal invasive carcinomas has indicated that actually there is a subset of these cases that does not express claudins. These cases were described as “claudin-low” and were characterized by statistically significantly worse prognosis.⁸8. Hennessy BT, Gonzalez-Angulo AM, Stemke-Hale K, et al. Characterization of a naturally occurring breast cancer subset enriched in epithelial-to-mesenchymal transition and stem cell characteristics. Cancer Res. 2009;69(10):4116-24.

Approximately 23 proteins have already been described as members of the claudin family, and these are essential for the tight junctions (TJs) that form between epithelial cells and between endothelial cells.⁹9. Tsukita S, Furuse M. Pores in the wall: claudins constitute tight junction strands containing aqueous pores. J Cell Biol. 2000;149(1):13-6. They play crucial roles in controlling paracellular transport and in maintaining cell polarity.¹⁰10. Hewitt KJ, Agarwal R, Morin PJ. The claudin gene family: expression in normal and neoplastic tissues. BMC Cancer. 2006;6:186. These findings shed light on the importance of adhesion molecules and their possible role in early breast carcinogenesis. Loss of claudin 4 has already been reported in cases of lobular in situ carcinoma.¹¹11. Cao D, Polyak K, Halushka MK, et al. Serial analysis of gene expression of lobular carcinoma in situ identifies down regulation of claudin 4 and overexpression of matrix metalloproteinase 9. Breast Cancer Res. 2008;10(5):R91.

However, cell adhesion is not limited to the claudin system. Several complex molecular schemes contribute to cell adhesion, such as cadherins, integrins and CD4, which have previously been studied in relation to breast cancer. Other than these important components of the cell adherence system, some novel mechanisms are directly or indirectly involved in cell adhesion, cell stability and prevention of cell migration. Focal adhesion sites contain multiple structural proteins such as talin, paxillin and focal adhesion kinase (FAK).¹²12. Madan R, Smolkin MB, Cocker R, Fayyad R, Oktay MH. Focal adhesion proteins as markers of malignant transformation and prognostic indicators in breast carcinoma. Hum Pathol. 2006;37(1):9-15. Paxillin is an adaptor protein with an important role in cell spreading and motility,¹³13. Schaller MD. Paxillin: a focal adhesion-associated adaptor protein. Oncogene. 2001;20(44):6459-72. and is located in the region of cell contact with the underlying extracellular matrix. In the physiological state, it functions as an adaptor protein that recruits several cytoskeleton and signaling proteins into a complex, thereby enabling transmission of coordinated downstream signals.¹⁴14. Brown MC, Turner CE. Paxillin: adapting to change. Physiol Rev. 2004;84(4):1315-39. Tyrosine phosphorylation of paxillin has been observed following integrin-dependent cell adhesion to extracellular matrix proteins, thus implicating paxillin in integrin-mediated signaling and focal adhesion formation.¹⁴14. Brown MC, Turner CE. Paxillin: adapting to change. Physiol Rev. 2004;84(4):1315-39.,¹⁵15. Burridge K, Turner CE, Romer LH. Tyrosine phosphorylation of paxillin and pp125FAK accompanies cell adhesion to extracellular matrix: a role in cytoskeletal assembly. J Cell Biol. 1992;119(4):893-903. Few reports have described paxillin distribution in breast tissue and ductal carcinomas.

In addition, while mediating cell adhesion, many cell adhesion molecules that have already been described act as tumor suppressors. Disrupted cell-cell or cell-extracellular matrix (ECM) adhesion significantly contributes towards uncontrolled cell proliferation and progressive distortion of normal tissue architecture.¹⁶16. Okegawa T, Li Y, Pong RC, Hsieh JT. Cell adhesion proteins as tumor suppressors. J Urol. 2002;167(4):1836-43. In this regard, another molecular pathway involved in cell adhesion, motility and invasion, with a potential role in breast cancer, is the AP-1 FRA-1 family.¹⁷17. Kustikova O, Kramerov D, Grigorian M, et al. Fra-1 induces morphological transformation and increases in vitro invasiveness and motility of epithelioid adenocarcinoma cells. Mol Cell Biol. 1998;18(12):7095-105.,¹⁸18. Tkach V, Tulchinsky E, Lukanidin E, et al. Role of the Fos family members, c-Fos, Fra-1 and Fra-2, in the regulation of cell motility. Oncogene. 2003;22(32):5045-54. A recent study has shown that high frequency of FRA-1 in ductal carcinoma in situ may be associated with early events in breast carcinogenesis, since the frequency of FRA-1 expression in invasive cancer was lower than the frequency of these in situ lesions.¹⁹19. Logullo AF, Stiepcich MM, Osório CA, et al. Role of Fos-related antigen 1 in the progression and prognosis of ductal breast carcinoma. Histopathology. 2011;58(4):617-25. Interestingly, there are several reports in the literature regarding interactions between HER-2 expression (one of the most important receptor kinase growth factors in breast cancer) and adhesion molecules. HER-2 overexpression has previously been reported to be associated with claudin 4²⁰20. Lanigan F, McKiernan E, Brennan DJ, et al. Increased claudin-4 expression is associated with poor prognosis and high tumour grade in breast cancer. Int J Cancer. 2009;124(9):2088-97. and paxillin expression²¹21. Short SM, Yoder BJ, Tarr SM, et al. The expression of the cytoskeletal focal adhesion protein paxillin in breast cancer correlates with HER2 overexpression and may help predict response to chemotherapy: a retrospective immunohistochemical study. Breast J. 2007;13(2):130-9. in breast carcinomas, which led us to further investigate whether, in our set of non-nodular breast lesions, this association would be confirmed.

OBJECTIVES

Our aim was therefore to analyze possible early adhesion imbalances by assessing these markers (claudin, paxillin, HER-2 and FRA-1) in non-nodular breast lesions and their possible association with precursor lesions, in order to ascertain whether these alterations might be present and contribute towards early carcinogenesis.

METHODS

The medical records of all consecutive women attended between August 2006 and July 2007 who presented non-palpable primary breast lesions with mammographic evidence of breast microcalcifications and clinically suspicions were identified from the archives of a private radiological diagnostic clinic (CURA Diagnostics, São Paulo, Brazil), and retrospectively reviewed. The patients were referred for further core biopsy or vacuum-assisted biopsy sampling, and their radiological initial and final classifications were registered. The Ethics Committee of the Federal University of São Paulo (Universidade Federal de São Paulo, Unifesp) approved this study (protocol CEP 0002/08). The patients gave their informed consent for the diagnostic procedures before inclusion in this retrospective study. The inclusion criteria were that the patients should present primary non-nodular breast lesions, previously classified as Breast Imaging Reporting and Data System Atlas (BI-RADS) type 4, and have undergone further radiological diagnosis, with morphological sampling for surgical pathological diagnosis. All the cases were objectively analyzed by two observers (trained radiologists). In the event of discordance regarding the classification, they worked to reach a consensus. Patients with histories of preoperative treatment with chemotherapy or radiotherapy for other reasons were excluded. Only the patients whose paraffin blocks and clinical data were available for further analysis were included. Clinical, radiological and morphological data were collected. Morphological diagnoses were assessed in accordance with World Health Organization (WHO) guidelines and grouped as benign, premalignant or malignant (ductal carcinoma in situ and invasive carcinoma).

Biopsy method

Stereotaxic vacuum-assisted core biopsy was performed for histopathological analysis, using an 11-gauge needle and a vacuum-assisted breast biopsy device (Mammotome Biopsy System, Johnson & Johnson Ethicon Endo-Surgery), under local injection anesthesia (lidocaine in association with 2% epinephrine). The patient was positioned according to the location of the targeted breast calcifications, always attempting to use the shortest path to reach the target area. X-rays were produced before and after obtaining specimens. Needle insertion was aimed towards the microcalcifications and, in cases of multiple foci, the most suspicious group according to the radiological appearance was chosen. The radiologist sought to obtain 15 to 18 specimens for histopathology. After concluding the biopsy procedure, a titanium clip was inserted, thus marking the biopsied area. Before being discarded, the needle was washed and the material remaining in the tubes was collected and subjected to further centrifugation.

Morphological assessment

All the specimens were identified and properly labeled with the patient's data. The samples were radiographed to ascertain whether microcalcifications were present, and were packaged in vials with 10% buffered formalin. The specimens were then processed and embedded in paraffin blocks, and slides of thickness 5 microns were obtained and stained with hematoxylin-eosin. Further sections were subjected to immunohistochemical assays.

On morphological examination, the following categories of benign lesions were noted: changes associated with benign fibrocystic breast disease, fibroadenomas, papillomas and benign tumors such as lipoma and adenomyolipoma. Proliferative lesions were reported as typical or atypical hyperplasia. Malignant lesions were classified as in situ, microinvasive or infiltrative carcinomas. Along with the histological diagnosis, the histological grade and percentage of the sample affected by the lesion were reported. A single experienced pathologist examined all the cases and was blinded to the imaging results (AFL).

Immunohistochemistry

Control tissues were included in each reaction. Whole 5-µm tissue sections from each block were subjected to each essay (for claudin, paxillin, HER-2 and FRA-1), cut and transferred to silanized slides, and left to dry overnight at 56 °C. The next day, the slides were dewaxed in xylene, rehydrated in graded alcohol and washed with water. Antigen retrieval was performed using a pressure cooker and 10 mM citrate buffer (pH 6.0). The samples were quenched with 6% hydrogen peroxide and incubated overnight at 4 °C with different antibodies, to be examined using immunohistochemistry. The following day, the slides were rinsed with PBS and incubated with the secondary antibody, for 30 min at 37 °C. The slides were rinsed again with phosphate buffered saline (PBS) and incubated with polymer (Novolink Max Polymer cat# RE7260-K, Novocastra Lab, Newcastle upon Tyne, UK) for 30 min at 37 °C. The slides were developed with 100 mg% DAB as the chromogen, with 0.06% hydrogen peroxide, and counterstained with Harris hematoxylin. Positive and negative control slides were included. The negative control was a slide from which the primary antibody had been omitted. Table 1 presents the primary antibodies and dilution rates utilized. All reactions were performed in the Pathology Department of A. C. Camargo Hospital, São Paulo.

Claudin-4, paxillin and HER-2 membrane expression were assessed by identifying ductal cells from their chicken-wire pattern staining, and were classified using the standard HER-2 classification system of Herceptest, as 1 to 3+. FRA-1 showed nuclear-exclusive and diffuse staining. Lesions were defined as positive if at least 10% of the true neoplastic tumor cells expressed the protein.

Radiological assessment

The initial mammograms brought by patients from other services, including the BI-RADS 4 classification, were reviewed. All the cases were analyzed by two observers (trained radiologists) and were objectively reclassified in accordance with the fourth edition of BI-RADS. In the event of discordant classification, the two observers worked together to reach a consensus.

Statistical analysis

Spearman's rank test was used to estimate the relationships between staining patterns of different antibodies. The correlation between antigen expression and other parameters was studied using Pearson's chi-square or Fisher's exact test. The numbers of false-positive and false-negative mammograms and the number of examinations with full agreement between the BI-RADS (fourth edition) classification and the histopathological findings were calculated. Associations between clinical, pathological and radiological variables were evaluated using Fisher's exact test or the chi-square test, as appropriate. Two-sided P values less than 0.05 were considered statistically significant. All the analyses were carried out using the SAS 9.1 software (Statistical Analysis System, Cary, NC, USA).

RESULTS

During the study period, 127 patients were evaluated and fulfilled the inclusion criteria for this study. Among these 127 patients, the previous BI-RADS diagnoses included 69 cases of category 4A, 47 of 4B, and 11 of 4C. The histopathological evaluation defined the majority of the cases included (86.5%) as benign entities. These included 37 cases of nonspecific functional and cystic alterations, one case of papilloma, one case of fibroadenoma and 28 cases of usual ductal hyperplasia. Atypical hyperplasia was found in five cases and carcinoma (in situ or invasive) was present in the remaining 16 cases. The distribution of these results is detailed in Table 2 (above).

Most of the benign lesions showed preserved claudin-4 expression (Table 3). In normal breast tissue or mammary glands presenting mild dysfunctional alterations such as fibroadenosis or fibrosclerosis, claudin expression was present in ductal cells, with a membrane pattern comparable to HER-2 staining. Usually, all mature ductal cells are positive, but the staining is not uniformly distributed, since some cells are strongly positive and others only moderately so.

We found the normal tissue pattern commonly equivalent to category 2+ of the ASCO/USCAP (American Society of Clinical Oncology/United States and Canadian Academy of Pathology) classification for HER-2 expression, with up to 30% of the cells strongly positive, among the other 70% with discontinuous positivity. By observing the scope of different alterations on the benign diagnostic samples, we could see that apocrine metaplasia was almost always totally negative for claudin-4 and extended areas of adenosis were usually negative. On the contrary, microglandular adenosis was strongly positive. Atrophic cells from cystic ducts or dysfunctional postmenopausal women are also negative.

We also noticed that lactation-type alteration was negative for claudin-4 and, amazingly, within the papilloma present in the study, claudin-4 expression was confined to the surface epithelia, while the bulk and inner layer were negative. Columnar alterations are usually negative for claudin-4, but the few examples of flat atypia in our samples showed a markedly 3+ pattern of claudin-4 expression.

The usual type of hyperplasia showed variable results regarding claudin-4 expression. Most of the cases were positive, but the intensity and percentage of positive cells were usually lower than in cases with atypia present. As in the few cases harboring foci of flat atypia, atypical ductal hyperplasia showed strong claudin-4 expression, along with the majority of the ductal carcinoma in situ samples. All but one of the atypical and malignant cases were positive for claudin-4 (20/21), although without reaching statistical significance for morphological or radiological diagnosis ( Table 4). Figure 1 shows a strongly 3+ positive claudin-4 ductal carcinoma in situ case.

Since the association between claudin-4 expression and HER-2 overexpression had previously been reported in breast carcinomas,²⁰20. Lanigan F, McKiernan E, Brennan DJ, et al. Increased claudin-4 expression is associated with poor prognosis and high tumour grade in breast cancer. Int J Cancer. 2009;124(9):2088-97. we investigated whether this association would be confirmed in our set of non-nodular breast lesions. We found that HER-2 expression marginally correlated with claudin-4 (P = 0.0734; Table 5).

Among the other proteins evaluated, claudin 4 expression was associated with paxillin (P < 0.001; Table 4). Paxillin expression was detected uniformly in all normal breast tissue (Figure 2). Its distribution correlated with the epithelial layers, such that the basal cells tended to be more positive than the luminal elements. However, the pattern was similar to that of HER-2 expression, i.e. more staining that was more membrane-based than cytoplasmic. In preserved breast elements, paxillin expression was delicate, and finer than the chicken-wire membrane-based HER-2 pattern. The basal membrane was always positive, as were the myoepithelial cells. Some functional alterations like apocrine metaplasia and columnar alterations showed diminished or absent paxillin expression, and adenosis and fibrosclerosis tended to maintain paxillin but in a rather diffuse and weak cytoplasmic pattern, with fewer membrane reactive spots. Presence of atypia conferred stronger and homogeneous evidence of paxillin in affected cells. Paxillin expression did not correlate with the morphological or radiological results (Table 4). It did not correlate with HER-2 expression (P = 0.013) or with FRA-1 (P = 0.2443, Table 5).

FRA-1 expression was always evident around ductal structures, thus strongly marking the basal membrane (Figure 3). Ductal cells were usually negative, but in normal ductal structures, some scattered elements showed nuclear-exclusive staining. In one third of the cases with normal breast tissue, more than 10% of the preserved ductal cells expressed FRA-1. However, the majority of non-proliferative lesions, including papillary lesions, adenosis, apocrine metaplasia and columnar alterations remained diffusely negative. The reactivity to FRA-1 tended to be more intense and diffusely distributed in atypical and malignant lesions (13 out of 21 cases), with positive associations with atypia and malignancy (P = 0.04, Table 4). FRA-1 expression was also strongly associated with HER-2 expression (P < 0.001; Table 5).

DISCUSSION

Analysis on non-nodular lesions of the breast encompasses a large range of entities since, aside from the premalignant entities, many benign lesions and alterations may present microcalcifications over time. Vacuum-assisted or core biopsies are usually indicated in cases that are radiologically classified as BI-RADS 4. According to the BI-RADS classification, this category includes a wide range of lesions: category 4A is defined as “findings needing intervention with a low suspicion of malignancy”; category 4B includes “lesions with an intermediate suspicion of malignancy” and the new category 4C consists of lesions with “findings of moderate concern, but not classic for malignancy”.²²22. American College of Radiology. ACR Appropriateness Criteria®. Available from: http://www.acr.org/SecondaryMainMenuCategories/quality_safety/app_criteria/RRLInformation.aspx. Accessed in 2012 (May 28).
http://www.acr.org/SecondaryMainMenuCate... Interestingly, the results from the morphological diagnosis were statistically associated with these BI-RADS categories at the same non-nodular lesions, and this became more significant when categories B and C were merged together. Since the adhesion properties of epithelial mammary cells are linked to basal membrane status and also to the surrounding extracellular matrix, non-nodular lesions seem to be an ideal vehicle for pinpointing early events in stromal and epithelial cells that may only have acquired subtly compromised adhesion properties.

We also had the opportunity to investigate the expression of these proteins in many specimens of virtually nearly normal breast tissue, which were collected and fixed in accordance with the best recommendations. These provided a good description of claudin, FRA-1 and paxillin distribution in non-proliferative lesions, as well as in nearly normal breast tissue.

In this regard, we found some imbalance of adhesion protein expression even in the benign cases. Claudin-4 expression, for instance, was negative in 17 cases of non-malignant breast lesions, especially those harboring apocrine metaplasia and adenosis. Another important finding was that claudin-4 expression was maintained through the progression to atypical lesions and in situ carcinomas, thus resulting in a larger contingent of positive samples in our series and therefore lacking correlation with morphological or radiological categories. Since the recent findings of loss of claudin expression have mostly been linked to estrogen-negative and high-grade carcinomas²⁰20. Lanigan F, McKiernan E, Brennan DJ, et al. Increased claudin-4 expression is associated with poor prognosis and high tumour grade in breast cancer. Int J Cancer. 2009;124(9):2088-97. and/or aggressive triple negative cases, it can be inferred that claudin-4 expression imbalance is related most exclusively to precursor lesions of highly aggressive tumors such as high-grade ductal carcinoma in situ.²³23. Lopez-Garcia MA, Geyer FC, Lacroix-Triki M, Marchió C, Reis-Filho JS. Breast cancer precursors revisited: molecular features and progression pathways. Histopathology. 2010;57(2):171-92. It seems that these events were not sampled in our series, or that they occur later on in breast carcinogenesis.

FRA-1 expression in normal and non-neoplastic breast tissue showed nuclear immunoreactivity, as reported by Song et al.²⁴24. Song Y, Song S, Zhang D, et al. An association of a simultaneous nuclear and cytoplasmic localization of Fra-1 with breast malignancy. BMC Cancer. 2006;6:298. We did not find any example of cytoplasmic reactivity for FRA-1, even at in our single case of invasive carcinoma. This may be explained by the fact that this particular case was a mucinous well-differentiated carcinoma. However, we found a shift between benign and malignant lesions, particularly when atypical cases were merged with in situ carcinomas. While one third of the benign cases were FRA-1 positive, over 61% of the malignant cases showed some nuclear reaction to FRA-1 (P = 0.0475), concordant with the findings of Song et al.²⁴24. Song Y, Song S, Zhang D, et al. An association of a simultaneous nuclear and cytoplasmic localization of Fra-1 with breast malignancy. BMC Cancer. 2006;6:298.

Interestingly, FRA-1 expression also correlated with BI-RADS classification. The possible role of FRA-1 in early carcinogenesis was previously demonstrated when, in a larger series of in situ and invasive nodular cases, the frequency of FRA-1 expression in invasive cancer was lower than it was in in situ lesions.¹⁹19. Logullo AF, Stiepcich MM, Osório CA, et al. Role of Fos-related antigen 1 in the progression and prognosis of ductal breast carcinoma. Histopathology. 2011;58(4):617-25. It seems that in situ carcinomas harbor the highest possible amount of FRA-1 nuclear expression and, according to other reports,²⁴24. Song Y, Song S, Zhang D, et al. An association of a simultaneous nuclear and cytoplasmic localization of Fra-1 with breast malignancy. BMC Cancer. 2006;6:298.,²⁵25. Chiappetta G, Ferraro A, Botti G, et al. FRA-1 protein overexpression is a feature of hyperplastic and neoplastic breast disorders. BMC Cancer. 2007;7:17. the invasion process may be accompanied by concomitant detection of cytoplasmic FRA-1 and diminution of FRA-1 expression, in comparison with in situ cases. One possible explanation for FRA-1 detection in cytoplasm could be that extracellular secretion of FRA-1 may occur, internalized by certain neoplastic cells, given that the tumor-associated macrophages that are present in invasive tumors intensively express FRA-1 and therefore indirectly support invasion and progression of carcinomas cells.²⁶26. Luo YP, Zhou H, Krueger J, et al. The role of proto-oncogene Fra-1 in remodeling the tumor microenvironment in support of breast tumor cell invasion and progression. Oncogene. 2010;29(5):662-73. Alternatively, the higher frequency of FRA-1 expression in membrane-restricted lesions should be addressed, in the light of reports on impressive FRA-1 effects relating to invasiveness, cell motility, aggressiveness and regulation of proteins implicated in tumor progression, which have been described in cultured breast tissue cells.²⁷27. Belguise K, Kersual N, Galtier F, Chalbos D. FRA-1 expression level regulates proliferation and invasiveness of breast cancer cells. Oncogene. 2005;24(8):1434-44. It is possible that the momentum shortly before the impressive shift from in situ to invasive carcinoma, with focal infiltration, constitutes the most demanding situation for nuclear FRA-1 production.

In normal mammary cells, paxillin had previously seldom been described in humans, and the few reports available are rather similar to what we have reported here.¹²12. Madan R, Smolkin MB, Cocker R, Fayyad R, Oktay MH. Focal adhesion proteins as markers of malignant transformation and prognostic indicators in breast carcinoma. Hum Pathol. 2006;37(1):9-15. On the other hand, invasive ductal carcinomas showed expression of 27.7% (short S) to 50%.¹²12. Madan R, Smolkin MB, Cocker R, Fayyad R, Oktay MH. Focal adhesion proteins as markers of malignant transformation and prognostic indicators in breast carcinoma. Hum Pathol. 2006;37(1):9-15. We were able to describe paxillin expression with a wider range of functional alterations, and half of the benign cases were positive. In contrast to another report,¹²12. Madan R, Smolkin MB, Cocker R, Fayyad R, Oktay MH. Focal adhesion proteins as markers of malignant transformation and prognostic indicators in breast carcinoma. Hum Pathol. 2006;37(1):9-15. we did not find any association between paxillin expression and progression to malignancy or BI-RADS classification. However, when assessed in cytological smears, paxillin failed to reach any concordance with invasion or prognostic variables.²⁸28. Panousis D, Patsouris E, Lagoudianakis E, et al. The value of TOP2A, EZH2 and paxillin expression as markers of aggressive breast cancer: relationship with other prognostic factors. Eur J Gynaecol Oncol. 2011;32(2):156-9. It remains unclear whether paxillin may be associated with invasion, since it regulates focal adhesion kinase (FAK) function,²⁹29. Scheswohl DM, Harrell JR, Rajfur Z, et al. Multiple paxillin binding sites regulate FAK function. J Mol Signal. 2008;3:1. which is a marker of malignant transformation rather than invasion.³⁰30. Oktay MH. Focal adhesion kinase overexpression may mark malignant transformation rather than invasive or metastatic potential of the lesion-reply. Human Pathology. 2006;37(9):1242. A substantial set of malignant and premalignant cases needs to be evaluated in order to provide further responses to this question, since paxillin expression was correlated with claudin and FRA-1 expression in our cases (P < 0.001 and 0.013, respectively).

It appears that adhesion signals and complex cellular protein complexes are somehow interrelated, and that subtle imbalance of one settlement may interfere with others. Alternatively, it is possible that cellular signaling aiming towards switching the adhesion status is launched in a coordinated manner, which may affect some, if not all, adhesion complexes in a cascade.

There are several reports in the literature regarding interactions between HER-2 expression and adhesion molecules. Paxillin expression was found to correlate with HER-2 gene amplification in 314 cases of invasive carcinoma, which led to speculation about whether paxillin might be a marker that could influence the predictive value of HER-2 regarding the response to adjuvant treatment.²¹21. Short SM, Yoder BJ, Tarr SM, et al. The expression of the cytoskeletal focal adhesion protein paxillin in breast cancer correlates with HER2 overexpression and may help predict response to chemotherapy: a retrospective immunohistochemical study. Breast J. 2007;13(2):130-9. We could not identify such a correlation, since the majority of our cases comprised benign and negative HER-2 samples, concordant with the findings of Madan et al.¹²12. Madan R, Smolkin MB, Cocker R, Fayyad R, Oktay MH. Focal adhesion proteins as markers of malignant transformation and prognostic indicators in breast carcinoma. Hum Pathol. 2006;37(1):9-15. Claudin-4 was found to correlate with HER-2 immunohistochemical expression in 299 cases of invasive ductal carcinoma,²⁰20. Lanigan F, McKiernan E, Brennan DJ, et al. Increased claudin-4 expression is associated with poor prognosis and high tumour grade in breast cancer. Int J Cancer. 2009;124(9):2088-97. but another report did not find this correlation in 412 tumors.³¹31. Blanchard AA, Skliris GP, Watson PH, et al. Claudins 1, 3, and 4 protein expression in ER negative breast cancer correlates with markers of the basal phenotype. Virchows Arch. 2009;454(6):647-56. In our series, this correlation was also not found (P = 0.0734). It seems that the larger contingent of non-neoplastic cases impeded a more specific correlation between these two variables.

Finally, we were able to report a statistically significant correlation between HER-2 and FRA-1 expression (P < 0.001). Since both of these variables also statistically correlated with the radiological and morphological results in this set of non-nodular breast lesions, a larger series of premalignant and malignant cases is essential in order to clarify the possible significance of these findings.

CONCLUSION

We conclude that, although already present in smaller amounts, imbalance of adhesion molecules is not necessarily prevalent in non-nodular breast lesions. Moreover, since FRA-1 expression reached statistically significant correlations with radiological and morphological diagnoses and with HER-2 status, perhaps this expression should be evaluated in a larger series, in order to investigate its potential predictive role in this setting.

REFERENCES

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