Search Results (3)

Background/Objectives: Gestational trophoblastic disease (GTD) is a group of disorders including complete, partial, and invasive/metastatic hydatidiform moles, as well as gestational trophoblastic neoplasia (GTN) (choriocarcinoma; placental site trophoblastic tumor, PSTT; epithelioid trophoblastic tumor, ETT; or mixed forms). These entities are characterized by increased trophoblast proliferation, rarely complicated by hyperthyroidism. Methods: Our systematic literature review (PRISMA guidelines; PubMed, Web of Science, and Scopus databases) searched for histologically confirmed cases of GTN associated with clinical or subclinical hyperthyroidism. We described the clinical–pathologic features and the pathways of hyperthyroidism in GTD. Results: We identified just 32 choriocarcinomas and one PSTT; other non-histologically confirmed cases could have been identified, as some patients received a clinical diagnosis based on serum human chorionic gonadotropin (hCG) levels and imagining data and were treated accordingly. As regards choriocarcinomas, patients’ age range was 15–45 (mean 27) years. Metastases involved the lungs (53%), brain (25%), and liver (19%) (less frequently, the kidneys, spleen, ovaries, vagina, pelvis/abdomen, or thyroid). The time to recurrence range was 1–36 (mean 12) months. On follow-up, 10 patients (32%) were alive with disease and 6 (19%) showed no evidence of disease, while most of the women (15 cases, 48%) died of disease. The hCG level range was 10,000–3,058,000,000 (mean 128,957,613) IU/L. At least some symptoms and/or signs of hyperthyroidism were evident with variable intensity in most cases and significantly improved within 2–3 weeks after treatment. Conclusions: Increased trophoblast proliferation could stimulate thyroid function via increasing the half-life of thyroxine-binding globulin. Secondly, increased hCG demonstrates cross-reactivity with the thyroid-stimulating hormone due to similar α-subunits. Moreover, basic isoforms of hCG may facilitate thyrotropic activity. Full article

Background: Gestational trophoblastic disease includes a rare group of benign and malignant tumors derived from abnormal trophoblastic proliferation. Malignant forms are called gestational trophoblastic neoplasia (GTN) and include invasive mole, choriocarcinoma, placental site trophoblastic tumor and epithelioid trophoblastic tumor. Standard treatment of GTN is chemotherapy. The regimen of choice mainly depends on the FIGO prognostic score. Low-risk and high-risk GTN is treated with single-agent or multiagent chemotherapy, respectively. In the case of chemoresistance, immunotherapy may represent a new therapeutic strategy. Methods: Literature obtained from searches on PubMed concerning GTN and immunotherapy was reviewed. Results: Programmed cell death 1 (PD-1) and its ligands (PD-L1/2) are expressed in GTN. Published data on PD-1/PD-L1 inhibitors alone in GTN were available for 51 patients. Pembrolizumab is an anti-PD-1 inhibitor used in chemoresistant forms of GTN. In the TROPHIMMUN trial, Avelumab, a monoclonal antibody inhibiting PD-L1, showed promising results only in patients with GTN resistant to monochemotherapy. Conversely, in patients with resistance to multiagent chemotherapy, treatment with Avelumab was discontinued due to severe toxicity and disease progression. The association of Camrelizumab and Apatinib could represent a different treatment for forms of GTN refractory to polychemotherapy or for relapses. Conclusions: Anti-PD-1 or anti-PD-L1 might represent an important new treatment strategy for the management of chemoresistant/refractory GTN. Full article

Cancer-associated fibroblasts (CAFs) are now appreciated as key regulators of cancer metastasis, particularly in cancers with high stromal content, e.g., pancreatic ductal cell carcinoma (PDAC). However, it is not yet well understood if fibroblasts are always primed to be cooperative in PDAC transition to metastasis, if they undergo transformation which ensures their cooperativity, and if such transformations are cancer-driven or intrinsic to fibroblasts. We performed a fibroblast-centric analysis of PDAC cancer, as it transitioned from the primary site to trespass stromal compartment reaching the lymph node using published single-cell RNA sequencing data by Peng et al. We have characterized the change in fibroblast response to cancer from a normal wound healing response in the initial stages to the emergence of subclasses with myofibroblast and inflammatory fibroblasts such as signatures. We have previously posited “Evolved Levels of Invasibility (ELI)”, a framework describing the evolution of stromal invasability as a selected phenotype, which explains the large and correlated reduction in stromal invasion by placental trophoblasts and cancer cells in certain mammals. Within PDAC samples, we found large changes in fibroblast subclasses at succeeding stages of PDAC progression, with the emergence of specific subclasses when cancer trespasses stroma to metastasize to proximal lymph nodes (stage IIA to IIB). Surprisingly, we found that the initial metastatic transition is accompanied by downregulation of ELI-predicted pro-resistive genes, and the emergence of a subclass of fibroblasts with ELI-predicted increased invasibility. Interestingly, this trend was also observed in stellate cells. Using a larger cohort of bulk RNAseq data from The Cancer Genome Atlas for PDAC cancers, we confirmed that genes describing this emergent fibroblast subclass are also correlated with lymph node metastasis of cancer cells. Experimental testing of selected genes characterizing pro-resistive and pro-invasive fibroblast clusters confirmed their contribution in regulating stromal invasability as a phenotype. Our data confirm that the complexity of stromal response to cancer is really a function of stage-wise emergence of distinct fibroblast clusters, characterized by distinct gene sets which confer initially a predominantly pro-resistive and then a pro-invasive property to the stroma. Stromal response therefore transitions from being tumor-limiting to a pro-metastatic state, facilitating stromal trespass and the onset of metastasis. Full article