Despite extensive studies suggesting increased susceptibility to HIV during the secretory phase of the menstrual cycle, the molecular mechanisms involved remain unclear. Our goal was to analyze ...transcriptomes of the endocervix and ectocervix during the proliferative and secretory phases using RNA sequencing to explore potential molecular signatures of susceptibility to HIV. We identified 202 differentially expressed genes (DEGs) between the proliferative and secretory phases of the cycle in the endocervix (adjusted p < 0.05). The biofunctions and pathways analysis of DEGs revealed that cellular assembly and epithelial barrier function in the proliferative phase and inflammatory response/cellular movement in the secretory phase were among the top biofunctions and pathways. The gene set enrichment analysis of ranked DEGs (score = log fold change/p value) in the endocervix and ectocervix revealed that (i) unstimulated/not activated immune cells gene sets positively correlated with the proliferative phase and negatively correlated with the secretory phase in both tissues, (ii) IFNγ and IFNα response gene sets positively correlated with the proliferative phase in the ectocervix, (iii) HIV restrictive Wnt/β-catenin signaling pathway negatively correlated with the secretory phase in the endocervix. Our data show menstrual cycle phase-associated changes in both endocervix and ectocervix, which may modulate susceptibility to HIV.
We observed that the ratio of in situ to invasive carcinomas of the cervix is significantly greater for squamous than for glandular lesions. We wondered whether Pap smears were less effective for the ...identification of in situ glandular lesions. The purpose of this study was to determine if the location, extent of disease, and growth patterns of endocervical adenocarcinomas influence the ability to detect malignant cells by Pap smears. Medical records, doctor's office records, and all pathology materials (reports and slides) including Pap smears, biopsies, LEEP/cone biopsies, and hysterectomy specimens from 53 consecutive patients diagnosed with endocervical adenocarcinomas were examined at New York University Medical Center (a total of 654 pathology slides and 51 Pap smears were reviewed). Findings were correlated for each patient using gross descriptions and histopathology and stratified by location/extent of disease and growth pattern (exophytic or endophytic or both). Ten patients had in situ disease, seven (70%) of which involved the transformation zone (TZ); all seven of these were identified by Pap smears. In contrast, of the other three cases that did not involve the TZ but were confined to the endocervix, only one was identified by Pap smear. Forty-three patients had invasive disease. Twenty involved the TZ, and 23 involved the endocervix but spared the TZ. Of the 20 tumors involving the TZ, 11 (55%) were identified by Pap smears, whereas of the 23 sparing the TZ, 11 (47.8%) were diagnosed by Pap smear. Among the 23 patients with invasive disease that spared the TZ, 6 (26%) had a documented history of negative Pap smears at New York University within 3 years of diagnosis. Conversely only 1 of the 20 patients with TZ involvement had a history of negative Pap smears, and 3 patients in this group denied having had Pap smears for several years. Including all 53 patients, a significantly higher proportion were not detectable by Pap smear if the TZ was spared (54% versus 25%, p = 0.036). Of the 23 invasive cancers that spared the TZ, 6 (14%) had verified negative Pap smears. These lesions did not shed malignant cells onto Pap smears. Noteworthy was the finding that two of these six lesions extended from the endocervix upward, through the stroma, and into the endomyometrium of the lower uterine segment. Four extended downward into the exocervix through the stroma, sparing the surface mucosa; one reached the upper vagina. All six displayed an endophytic growth pattern.
An algorithm is presented for restoration of colour microscopic images with distortions from imperfect microscope lenses having transverse chromatic aberrations, resulting in a magnification that ...slightly varies with wavelengths or colours. The differential of each colour component image is computed as the difference between the component image and its slightly magnified version. The absolute values in the differential component images are generally higher at the edges where greater discontinuities occur. The two cross-correlation functions of the absolute differentials between red and green colours and between red and blue colours are then computed. The maximum in the two cross-correlation functions were sought, respectively, and the cross-correlation delays were then calculated. The two cross-correlation delays were used to determine dispersions and to realign the three colour components. Results of real microscopic images are provided. The restored image and the original are compared both visually and quantitatively in terms of the estimated entropies measured for the degree of concentrations using vector distributions.