The expression of transcription factor BORIS and its association with the estrogen receptor beta (ER-ß) in cervical carcinogenesis.

BORIS is a transcription factor aberrantly expressed in human cancers that can regulate the expression of estrogen receptors in endometrial cancer and breast cancer. We evaluated the expression of BORIS and the estrogen receptors alpha (ER-α) and beta (ER-ß) in ten cell lines derived from cervical cancer using RT-PCR and Western-blot. We also evaluated 54 cervical tissues: normal epithelia, low-grade intraepithelial lesions (LSIL), high-grade intraepithelial lesions (HSIL), and invasive squamous carcinomas (SC) using immunohistochemistry. In the cell lines, BORIS mRNA and protein expressions are associated with ER-ß expression but not with ER-α expression. In the normal cervical epithelium, ER-α and ER-ß were expressed but the BORIS protein was not detected. In the LSIL samples, BORIS, ER-α and ER-ß were expressed; however, in the HSIL samples, only the BORIS and ER-ß expressions were detected, but ER-α expression was minimal or null. In the SC, only BORIS and ER-ß were detected. In summary, the results show that the expressions of BORIS and ER-ß increase while the expression of ER-α decreases according to the severity of the lesions. These results suggest synergistic roles for BORIS and ER-ß during cervical cancer progression with a possible regulation of the estrogen receptors by BORIS in the development of cervical cancer; however, more detailed studies are needed to confirm this suggestion and to determine the precise role of BORIS in cervical cancer.

Krüppel-Like Factor 10 participates in cervical cancer immunoediting through transcriptional regulation of Pregnancy-Specific Beta-1 Glycoproteins.

Cervical cancer (CC) is associated with alterations in immune system balance, which is primarily due to a shift from Th1 to Th2 and the unbalance of Th17/Treg cells. Using in silico DNA copy number analysis, we have demonstrated that ~20% of CC samples exhibit gain of 8q22.3 and 19q13.31; the regions of the genome that encodes the KLF10 and PSG genes, respectively. Gene expression studies demonstrated that there were no alterations in KLF10 mRNA expression, whilst the PSG2 and -5 genes were up-regulated by 1.76 and 3.97-fold respectively in CC compared to normal tissue controls. siRNA and ChIP experiments in SiHa cells have demonstrated that KLF10 participates in immune response through regulation of IL6, IL25 and PSG2 and PSG5 genes. Using cervical tissues from KLF10-/- mice, we have identified down-regulation of PSG17, -21 and -23 and IL11. These results suggest that KLF10 may regulate immune system response genes in cervical cancer among other functions. KLF10 and PSG copy number variations and alterations in mRNA expression levels could represent novel molecular markers in CC.

The KISS1 gene overexpression as a potential molecular marker for cervical cancer cells.

BACKGROUND: Similarities between the pathologic progression of cancer and the physiologic process of placentation have been recognized for many years proposing that both present similar mechanisms and processes. Cervical cancer (CC) is one of the most frequent neoplasia among Mexican women turning it into an important health problem. OBJECTIVE: The aim of this study was to determine the degree of the involvement of pregnancy related genes and in cancer progression by in-silico analysis and validated in CC samples. RESULTS: The data mining analysis resulted in the identification of genes expressed in term placenta, first trimester placenta and normal cervical tissues. Finally, we selected KISS1 for the involvement of pregnancy related gene and also in cancer process. In order to explore KISS1 in CC, we analyzed Copy Number Variation (CNV) and gene expression using microarray experiments. KISS1 showed 20% genomic gain in 1q32.1 on CC samples. Furthermore, microarray analysis showed KISS1 as up-regulated genes. Results were validated showing an overexpression of 85% of KISS1 in CC samples. CONCLUSIONS: Data suggest KISS1 as a great candidate for CC molecular markers or as a therapeutic target for CC. Also, HPV presence does not seem to alter the KISS1 expression in CC.

A non-invasive tool for detecting cervical cancer odor by trained scent dogs.

BACKGROUND: Cervical Cancer (CC) has become a public health concern of alarming proportions in many developing countries such as Mexico, particularly in low income sectors and marginalized regions. As such, an early detection is a key medical factor in improving not only their population's quality of life but also its life expectancy. Interestingly, there has been an increase in the number of reports describing successful attempts at detecting cancer cells in human tissues or fluids using trained (sniffer) dogs. The great odor detection threshold exhibited by dogs is not unheard of. However, this represented a potential opportunity to develop an affordable, accessible, and non-invasive method for detection of CC. METHODS: Using clicker training, a male beagle was trained to recognize CC odor. During training, fresh CC biopsies were used as a reference point. Other samples used included cervical smears on glass slides and medical surgical bandages used as intimate sanitary pads by CC patients. A double-blind procedure was exercised when testing the beagle's ability to discriminate CC from control samples. RESULTS: The beagle was proven able to detect CC-specific volatile organic compounds (VOC) contained in both fresh cervical smear samples and adsorbent material samples. Beagle's success rate at detecting and discriminating CC and non-CC odors, as indicated by specificity and sensitivity values recorded during the experiment, stood at an overall high (>90%). CC-related VOC in adsorbent materials were detectable after only eight hours of use by CC patients. CONCLUSION: Present data suggests different applications for VOC from the uterine cervix to be used in the detection and diagnosis of CC. Furthermore, data supports the use of trained dogs as a viable, affordable, non-invasive and, therefore, highly relevant alternative method for detection of CC lesions. Additional benefits of this method include its quick turnaround time and ease of use while remaining highly accurate and robust.

[The role of developmental HOX genes in cervical cancer]. / El papel de los genes del desarrollo tipo HOX en el cáncer cervicouterino.

Cervical cancer (CC) is a multifactorial disease associated to genetic, environmental and epigenetic factors, being the infection by human papillomavirus the main etiologic agent. Additionally, the alteration in the expression of transcription factors has been considered of importance for the development of this tumor. HOX genes encode a group of transcription factors involved in cellular proliferation and differentiation processes during the development of embryonic structures in vertebrates; their aberrant expression is associated with tumorigenesis and metastasis. A range of evidence suggests a role for HOX genes in the development of cervical neoplastic cell. Studies in CC cell lines, primary tumors and premalignant lesions have suggested the involvement of HOXA1, HOXC5, C6, C8 and C10, HOXD9 and HOXD13 in the process of cervical carcinogenesis. Also, the de novo expression of genes HOXB2, B4, B13 and HOXC11-C13 appears to be involved in the process of malignant transformation of cervical epithelial cell. These data would allow to open a field in search of new molecular markers in cervical cancer and the development of new therapeutic strategies for this malignancy.

El cáncer cervicouterino (CaCU) es una enfermedad multifactorial que se asocia a factores genéticos, ambientales y epigenéticos, y cuyo principal agente etiológico es la infección por el virus del papiloma humano. Además, la alteración en la expresión de factores de transcripción ha sido considerada de importancia para el desarrollo de esta neoplasia. Los genes HOX codifican un grupo de factores de transcripción que participan en los procesos de proliferación y diferenciación celular durante el desarrollo de las estructuras embrionarias en los vertebrados; y su expresión aberrante ha sido asociada con oncogénesis y metástasis. Una serie de evidencias sugiere un papel importante para los genes HOX en el desarrollo neoplásico de la célula cervical. Estudios realizados en líneas celulares de CaCU, lesiones premalignas y tumores primarios han sugerido el involucramiento de HOXA1, HOXC5, C6, C8 y C10, HOXD9 y HOXD13 en el proceso de carcinogénesis cervical. Asimismo, la expresión de novo de los genes HOXB2, B4, B13 y HOXC11-C13 parece estar involucrada en el proceso de transformación maligna de la célula del epitelio cervical. Estos datos permitirían abrir un campo en la búsqueda de nuevos marcadores moleculares en cáncer cervical y en el desarrollo de nuevas estrategias terapéuticas para atender esta neoplasia.

Thymopoietin Beta and Gamma Isoforms as a Potential Diagnostic Molecular Marker for Breast Cancer: Preliminary Data.

Thymopoietin (TMPO) is an inner nuclear membrane protein, the coding gene named equally, can give arise to six isoforms by alternative splicing. This gene has been found up regulated in several types of cancer. At present work, we evaluated the TMPO isoforms generated by alternative splicing as well as the protein signal detection in breast cancer samples. TMPO expression was analyzed by immunohistochemistry in tissue microarray containing 46 breast tissue samples including normal (n = 6), benign lesions (n = 18) (fibroadenomas (n = 6), fibrocystic changes (n = 6), ductal hyperplasias (n = 6)) and breast carcinoma (n = 22). Isoforms -α, -ß and -γ of TMPO were evaluated using RT-PCR; clinical-pathological correlation analysis were done by mean of X(2). Neither the normal nor the benign lesions of the breast showed positive TMPO immunodetection, whilst 45 % of the breast carcinomas were immunopositive (p = 0.000), nine of ten positives carcinomas correspond to the Luminal A subtype. Further, alpha isoform was present in all breast samples analyzed; however, beta and gamma isoforms were only present in ten (p = 0.003) and 17 (p = 0.000), respectively, in the breast cancer samples. According with the present data, we suggest that TMPOß and -γ isoforms could provide a potential reliable diagnostic marker for breast cancer.