High grade serous ovarian tumors often metastasize transperitoneally, a process that begins when small tumor nodules de-adhere and are released into the fluid of the abdominal cavity where they float freely to reach new sites on the peritoneal wall. Podocalyxin, a small anti-adhesive sialomucin, has been shown to contribute to non-adhesive membrane domain formation in some epithelia and is overexpressed in a variety of cancers. We therefore assessed podocalyxin expression on a previously characterized tissue microarray and found that 87% (169/194) of high grade serous epithelial ovarian carcinomas were positive for podocalyxin. In addition, cell surface localization of podocalyxin was associated with a significant decrease in disease-free survival in these tumors. When podocalyxin was force-expressed in serous ovarian carcinoma-derived OVCAR-3 cells it was targeted to the cell surface and it decreased the adhesion of these cells to mesothelial monolayers, fibronectin and immobilized β1 integrin-binding antibodies. This decrease in adhesion was associated with a modest decrease in cell surface β1 integrin. In monolayer culture, podocalyxin was targeted to the free, apical domains of OVCAR-3 cells and it appeared to decrease β1 integrin levels on the attached basolateral domains of the same cells. Furthermore, in 3-dimensional basement membrane gel culture, the cells formed small, cohesive nodules and podocalyxin localized to membrane domains at the cell-basement membrane interface. Therefore, podocalyxin's ability to facilitate the formation of non-adhesive membrane domains may contribute to the formation of free-floating high grade serous tumor nodules during the initial steps of transperitoneal metastasis.
Primary ovarian mucinous carcinomas of the intestinal type are uncommon and earlier reports have included cases diagnosed according to older, less stringent, criteria (which would now be considered borderline tumors) and variable numbers of cases of metastatic adenocarcinoma. This study was conducted to identify all cases of primary mucinous carcinoma of the ovary in a population-based registry, diagnosed according to WHO 2003 criteria, and to characterize their histologic features, immunohistochemical expression profile, and outcome. Thirty-one cases of primary ovarian mucinous carcinoma were included in this study. Immunostaining for 33 markers was performed. Mean age of the patients was 55.4+/-13.5 years. Thirty tumors were stage I or II at presentation. Twenty-six of 31 (83.9%) tumors had expansile stromal invasion, 4 of 31 (12.9%) showed destructive invasion, and 1 of 31 (3.2%) had anaplastic carcinoma in a mural nodule. All cases with destructive invasion showed grade 3 nuclear atypia whereas only 3 of 26 (11.5%) cases with expansile invasion had grade 3 nuclear atypia (P=0.0003). At follow-up, 6 of 26 patients (23.1%) with tumors showing expansile invasion experienced a recurrence, compared with 1 of 4 patients (25%) with destructive invasion and the single patient (100%) with anaplastic carcinoma. There was CK7 positivity in 26 of 31 cases (86.7%), and CK20 and Cdx-2 were each positive in 33.3% of cases. D2-40, calretinin, mesothelin, CA-125, Pax-8, TTF, and WT1 were completely negative in all cases. NHERF1 staining was present in 19 of 26 cases (73%) and its expression was associated with poor prognosis (P=0.05). Our findings support current diagnostic criteria for primary ovarian mucinous carcinoma, that is, the presence of expansile invasion, in the absence of destructive invasion, warrants a diagnosis of carcinoma. A large majority of mucinous carcinomas show only an expansile pattern of invasion and are confined to the pelvis at diagnosis.
Adoptive cell therapy using autologous tumor-infiltrating lymphocytes (TIL) has shown significant clinical benefit, but is limited by toxicities due to a requirement for post-infusion interleukin-2 (IL-2), for which high dose is standard. To assess a modified TIL protocol using lower dose IL-2, we performed a single institution phase II protocol in unresectable, metastatic melanoma. The primary endpoint was response rate. Secondary endpoints were safety and assessment of immune correlates following TIL infusion. Twelve metastatic melanoma patients were treated with non-myeloablative lymphodepleting chemotherapy, TIL, and low-dose subcutaneous IL-2 (125,000 IU/kg/day, maximum 9-10 doses over 2 weeks). All but one patient had previously progressed after treatment with immune checkpoint inhibitors. No unexpected adverse events were observed, and patients received an average of 6.8 doses of IL-2. By RECIST v1.1, two patients experienced a partial response, one patient had an unconfirmed partial response, and six had stable disease. Biomarker assessment confirmed an increase in IL-15 levels following lymphodepleting chemotherapy as expected and a lack of peripheral regulatory T-cell expansion following protocol treatment. Interrogation of the TIL infusion product and monitoring of the peripheral blood following infusion suggested engraftment of TIL. In one responding patient, a population of T cells expressing a T-cell receptor Vβ chain that was dominant in the infusion product was present at a high percentage in peripheral blood more than 2 years after TIL infusion. This study shows that this protocol of low-dose IL-2 following adoptive cell transfer of TIL is feasible and clinically active. (ClinicalTrials.gov identifier NCT01883323.)
Tubulobulbar complexes are cytoskeleton-related membrane structures that develop at sites of intercellular attachment in mammalian seminiferous epithelium. At apical junctions between Sertoli cells and spermatids, the structures internalize adhesion junctions and are a component of the sperm release mechanism. Here we explore the possibility that tubulobulbar complexes that form at the blood-testis barrier are subcellular machines that internalize basal junction complexes. Using electron microscopy, we confirmed that morphologically identifiable tight and gap junctions are present in basal tubulobulbar complexes in rats. In addition, immunological probes for claudin-11 (CLDN11), connexin-43 (GJA1), and nectin-2 (PVRL2) react with linear structures at the light level that we interpret as tubulobulbar complexes, and probes for early endosome antigen 1 (EEA1) and Rab5 (RAB5A) react in similar locations. Significantly, fluorescence patterns for actin and claudin-11 indicate that the amount of junction present is dramatically reduced over the time period that tubulobulbar complexes are known to be most prevalent during spermatogenesis. We also demonstrated, using electron microscopy and fluorescence microscopy, that tubulobulbar complexes develop at basal junctions in primary cultures of Sertoli cells and that like their in vivo counterparts, the structures contain junction proteins. We use this culture system together with transfection techniques to show that junction proteins from one transfected cell occur in structures that project into adjacent nontransfected cells as predicted by the junction internalization hypothesis. On the basis of our findings, we present a new model for basal junction remodeling as it relates to spermatocyte translocation in the seminiferous epithelium.
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