HIF-1α, HIF-2α, and ProExC: diagnostic or prognostic relevance in conjunctival intraepithelial neoplasia?

Conjunctival intraepithelial neoplasia (CIN) and squamous cell carcinoma (SCC) are rare tumors but are among the most common conjunctival malignancies with an incidence of SCC between 0.03/100000 persons per year in the USA and 3.4 and 3.0 cases/year/100000 in Zimbabwe [1, 2].

CIN can present as a simple dysplasia to carcinoma in situ. The diagnosis of dysplasia and the grading of CIN are made histopathologically by means of subjective assessment. Classification and grading parallel cervical intraepithelial neoplasia (cervical IN). CIN grade depends on the proportional distribution of dysplasia in relation to the epithelial height [3]. By analogy to the cervical IN, there are three different grades which range from CIN grade I with dysplasia of the basal third to CIN grade III or carcinoma in situ with dysplasia over 2/3 of the whole thickness of the epithelium [4].

Dysplasia is defined by morphological criteria such as atypical, enlarged, and/or hyperchromatic nuclei; increased mitosis; and apoptosis. These criteria are in some extent quite subjective. Therefore, additional immunohistochemical stains supporting malignancy would be helpful, also in differentiating those tumors consisting of metaplasia alone from those with CIN and additional metaplasia.

In cervical IN, the markers HIF-1α and ProExC have already been evaluated as diagnostic markers [5‐7].

A higher expression of HIF (hypoxia-inducible factors) was linked to poorer prognosis in a large number of different tumors [7‐9]. HIFs, mainly HIF-1α and HIF-2α, are heterodimeric transcription factors which are rapidly degraded under normoxic conditions by hydroxylation (PHD 1–3), binding to the VHL (von Hippel Lindau) protein and together marked by E3-ubiquitin-ligase complex before proteasomal degradation (Fig. 1). HIF is known to have a key role in cellular responses to hypoxia and is an important regulator of tumorigenesis including proliferation, differentiation, angiogenesis, immortalization, metastasis, and apoptosis [10‐13].

In cervical IN, studies observed a higher expression of HIF-1α in high-grade cervical IN compared with that in normal cervical epithelium [5, 7]. Furthermore, No et al. also showed higher expression of HIF-1α in high-grade in comparison with low-grade dysplasia.

ProExC consists of two monoclonal antibodies against TOP2A (topoisomerase 2α) and MCM2 (minichromosome maintenance protein 2) which are two important factors in DNA replication [14, 15]. ProExC was shown to indicate a correlation between expression and cervical IN grades with significant higher expression of higher cervical IN grades whereas specimens with metaplasia showed less ProExC expression [6].

Due to the similarity between cervical and conjunctival intraepithelial neoplasia, we focused on the markers HIF-1α and ProExC as potential diagnostic and prognostic markers of CIN. Besides this, we aimed to investigate HIF-2α in CIN which level of expression has been found increased in various tumors like bladder, breast, colon, and also cervical carcinomas [9].

The study was approved by the ethics committee of the Albert-Ludwig University Freiburg, Germany; written informed consent was obtained from the study participants. Forty-three conjunctival specimens with diagnosed CIN or metaplasia (details in results) which had been excised at the Eye Center Freiburg between 2004 and 2013 were included. Control specimens originated from excess conjunctiva that had been resected at the end of buckle retinal detachment surgeries.

HIF-1α and HIF-2α are known to drive gene expression that support metabolism under hypoxic conditions. The activation of HIF-1α and HIF-2α seems to be common in malignancies [9]. Talks et al. described an overexpression of HIF-1α and HIF-2α in breast, colon, ovarian, pancreatic, prostate, renal, and hepatocellular carcinomas [8]. Moreover, No et al. have shown a notably increased expression of HIF-1α at higher cervical IN grades [5] and Birner et al. observed that HIF-1α was highly expressed in cervical cancer and in high-grade CIN compared with normal cervix [7]. Furthermore, clinical studies have revealed that higher expression of HIF-1α and HIF-2α seems to be associated with a poorer prognosis in many tumors [9]. In contrast, HIF is also able to reduce tumor growth by cell cycle arrest and control of proapoptotic genes [17, 18].

The present study showed low expression of HIF-1α and HIF-2α in CIN. The conjunctiva is well supplied with blood and has a high degree of external humidification and oxygen supply. In accordance to the cancer stem cell hypothesis, it is assumed that cells carrying the best situation-related mutation (“survival of the fittest”) accumulate in tumors [19]. We assume that HIF is downregulated to avoid cell cycle arrest and HIF-induced apoptosis because all cells of the conjunctiva may be well oxygenated, even if dysplastic. Schoelles et al., different investigators from our eye center, also analyzed HIF-1α and HIF-2α and the controls were treated in the same way as the specimens of our study. Their unpublished results include a higher expression of HIF-1α and HIF-2α in the controls compared with pterygium specimens. In contrast, we observed that the expressions of HIF-1α and also of TKTL-1 (transketolase-like protein 1), induced by hypoxia and HIF-1α, were higher in SCC of the ocular adnexa (including the conjunctiva) in comparison with conjunctival papilloma. Higher HIF-1α and TKTL-1 expression tended to be associated with a worse prognosis [16, 20, 21]. In the current study, we only stained the initial CIN specimens but not the later CIN recurrences or SCC. In order to investigate these contradictory findings further, a longitudinal analysis of HIF or TKTL-1 expression is warranted.

The significantly increased expression of HIF in normal samples compared with CIN was unexpected, given the external oxygen supply. Our analysis hint towards intraoperative hypoxia in the controls 20–45 min by many severed capillaries before the control specimen was completely separated from the adjacent conjunctiva at the end of the surgery. The expression of HIF-1α level of brain tissue increased significantly under experimental conditions in rats within less than 1 h after traumatic head injury [22]. For this reason, we speculate that the higher expression of HIF in the control specimens may be caused by a longer preexcisional hypoxia compared with the included CIN cases, which in contrast to the control specimens were immediately excised completely.

Furthermore, we investigated ProExC as a potential indicator for the classification of conjunctival specimens such as CIN and the course of the disease, but not as a reliable diagnostic marker. ProExC, a mix of two monoclonal antibodies against TOP2A and MCM2, has already been tested as a sufficient marker for proliferating cells and aberrant S-phase.

In our study, no significant difference in the proportion of ProExC-positive cells in CIN compared with normal conjunctival specimen was found (p = 0.55). This is in contrast to the findings of Guo et al. who investigated cervical specimens and showed a staining in over 50% of the dysplastic cells in high-grade cervical IN [6]. Nevertheless, our study revealed a tendency towards a more pronounced staining in specimens with recurrence or progression to SCC in the clinical course, but without statistical significance. This is in line with the results found in cervical IN and cervical carcinomas [6]. Regarding significance, it must be considered that a sample size consisting of three cases with progression to SCC is very small. Interestingly, all 3 patients progressing into SCC had autoimmune dermatitis (case 5 and 6 had atopic dermatitis and case 4 psoriasis) indicating smaller risk of patients without such an immune deviation to progress from CIN to SCC. However, compared with HIF-1α and HIF-2α, there was a statistically significant higher hazard ratio for ProExC staining within the first 4 years for CIN to develop a recurrence or SCC (p = 0.04). Evaluation of the vertical extension of ProExC staining showed that upper epithelial cells were more frequently stained in CIN compared with normal conjunctiva or metaplasia, however missing statistical significance (p = 0.06 and p = 0.07). Furthermore, we observed a statistically significant correlation between the proportion of ProExC-positive tumor cells and the vertical extension (p < 0.001).

A major drawback of our study is the low sample size. Our mostly negative findings may be due to a statistical power issue. Other limitations are the retrospective nature and the monocentric setting. Therefore, any clinic-related bias cannot be ruled out. However, a prospective large multicentric study is hard to perform because the conditions are very rare.

In conclusion, neither HIF-1α nor HIF-2α seems to be suitable as a diagnostic or prognostic marker in CIN. ProExC may be of some value for predicting recurrences or progression to SCC when analyzing the proportional staining. These findings should be confirmed in patients from other eye centers with a larger sample size.