Browse

You are looking at 41 - 50 of 2,335 items for

  • All content x
Clear All
Restricted access

Wafa Bouleftour, Karima Boussoualim, Sandrine Sotton, Cecile Vassal, Thierry Thomas, Nicolas Magné, and Aline Guillot

Prostate cancer (Pca) is the most commonly diagnosed cancer affecting men in France. Before the age of 75 years old, 1 in 8 French men will have Pca. Androgen deprivation therapies (ADT) remain the standard of care. Such therapies induces significant bone loss. Bone-remodelling cycle depends on the androgen synthesis signalling pathways. Furthermore, age-specific hormonal decline plays a key role in the decrease in bone mass. As a result, the older the patients, the more likely they are to have osteoporosis if they are treated with hormone therapy. Their risk of osteoporotic fracture has an impact on their quality of live and their capacity of independent living. In recent years, newer hormone therapies (acetate abiraterone, enzalutamide, apalutamide and darolutamide) have proved efficient in metastatic castration-resistant Pca (mCRPC) patients as well as in hormone naïve patients, and actually in non-metastatic diagnosis. The combination of these treatments with ADT highly inhibit androgen production pathways. They are prescribed to aged patients undergoing bone density loss after first generation anti-androgen treatment. Specific recommendations for bone health management in Pca patients are currently lacking. To date, bone mineral density in patients treated with second-generation hormone therapy has never been assessed in a prospective study. This review aims at reviewing what is known about the impact of second-generation hormonotherapy on bone microenvironment.

Restricted access

Sara Pusceddu, Antonio Facciorusso, Luca Giacomelli, Natalie Prinzi, Francesca Corti, Monica Niger, Massimo Milione, Jorgelina Coppa, Tommaso Cascella, Iolanda Pulice, Lavinia Biamonte, Simonetta Papa, Maria Di Bartolomeo, Aashni Shah, Rodolfo Sacco, and Filipppo de Braud

Although combination therapy is not recommended in patients with gastro-entero-pancreatic (GEP) neuroendocrine tumors (NETs), this strategy is widely used in clinical practice. This network meta-analysis of randomized trials evaluates targeted therapies and somatostatin analogues in GEP advanced NETs, either alone or in combination, comparing the efficacy of different single or combined treatment strategies in terms of progression-free survival (PFS). Interventions were grouped as analogues, everolimus, everolimus plus SSAs, sunitinib and placebo. In a secondary analysis, we also assessed the efficacy of individual specific pharmacological treatments versus placebo or each other. From 83 studies identified, 8 randomized controlled trials were selected, with a total of 1849 patients with either functioning or non-functioning NETs. The analysis confirmed the superiority of all treatments over placebo (HR ranging from 0.34, 95% CI: 0.24–0.37 with the combination of everolimus plus SSAs to 0.42, 0.31–0.57 with the analogues; moderate quality of evidence). On ranking analysis, the combination of everolimus plus SSA (P score=0.86) and then everolimus alone (P score=0.65) ranked highest in increasing PFS. On comparative evaluation of different interventions, pasireotide (P score=0.96) and everolimus+octreotide (P score=0.82) ranked as the best pharmacological treatment options. Our findings support the use of combination therapy in the treatment of functioning and non-functioning GEP NETs. The role of pasireotide should be explored in selected subgroups of patients. Last, the combination of everolimus and octreotide appears promising and should be more widely considered in clinical practice.

Free access

Ewan M Stephenson, Laura E J Usselmann, Vinay Tergaonkar, David M Virshup, and Robert Dallmann

Circadian rhythms regulate a vast array of physiological and cellular processes, as well as the hormonal milieu, to keep our cells synchronised to the light–darkness cycle. Epidemiologic studies have implicated circadian disruption in the development of breast and other cancers, and numerous clock genes are dysregulated in human tumours. Here we review the evidence that circadian rhythms, when altered at the molecular level, influence cancer growth. We also note some common pitfalls in circadian-cancer research and how they might be avoided to maximise comparable results and minimise misleading data. Studies of circadian gene mutant mice, and human cancer models in vitro and in vivo, demonstrate that clock genes can impact tumourigenesis. Clock genes influence important cancer-related pathways, ranging from p53-mediated apoptosis to cell cycle progression. Confusingly, clock dysfunction can be both pro- or anti-tumourigenic in a model and cell type-specific manner. Due to this duality, there is no canonical mechanism for clock interaction with tumourigenic pathways. To understand the role of the circadian clock in patients’ tumours requires analysis of the molecular clock status compared to healthy tissue. Novel mathematical approaches are under development, but this remains largely aspirational, and is hampered by a lack of temporal information in publicly available datasets. Current evidence broadly supports the notion that the circadian clock is important for cancer biology. More work is necessary to develop an overarching model of this connection. Future studies would do well to analyse the clock network in addition to alterations in single clock genes.

Free access

Pedro Weslley Rosario, Marina Carvalho Souza Côrtes, and Gabriela Franco Mourão

Antithyroglobulin antibodies (TgAb) are present in up to 25% of patients with differentiated thyroid carcinoma on initial postoperative assessment. Detectable concentrations of TgAb even below the manufacturer’s cut-off can interfere with serum thyroglobulin (Tg) determination. When Tg is quantified using an immunometric assay (IMA) (hereafter referred to as Tg-IMA), this interference results in underestimated values of Tg. Although promising, more clinical trials evaluating the capacity of liquid chromatography/tandem mass spectrometry and of new assays to detect elevated Tg in patients with TgAb and structural disease are necessary, particularly when Tg is undetectable by a second-generation IMA (Tg-2GIMA). Neck ultrasonography (US) should be performed in patients submitted to total thyroidectomy and with negative Tg-IMA but with detectable TgAb more than 6 months after initial therapy. In patients treated with 131I, comparison of TgAb concentrations obtained before this treatment is useful to estimate the risk of disease and to guide the investigation. If initial assessment does not reveal any persistent tumor, the repetition of US is recommended while TgAb persist. Significant elevation of TgAb requires extended investigation. On the other hand, patients with negative Tg-IMA and US without abnormalities who exhibit a reduction > 50% in TgAb generally do not require investigation. Although TgAb can interfere with Tg, the management and follow-up of patients submitted to total thyroidectomy with borderline TgAb can probably be the same as those recommended for patients without TgAb if Tg-2GIMA and US indicate an excellent response to therapy. Currently, the presence/absence or the trend of TgAb levels cannot be considered in the follow-up of patients submitted to lobectomy.

Restricted access

Mark P Labrecque, Joshi J Alumkal, Ilsa M Coleman, Peter S Nelson, and Colm Morrissey

The use of androgen deprivation therapy and second line anti-androgens in prostate cancer has led to the emergence of tumors employing multiple androgen receptor (AR)-dependent and AR-independent mechanisms to resist AR targeted therapies in castration-resistant prostate cancer (CRPC). While the AR signaling axis remains the cornerstone for therapeutic development in CRPC, a clearer understanding of the heterogeneous biology of CRPC tumors is needed for inno-vative treatment strategies. In this review, we discuss the characteristics of CRPC tumors that lack AR activity and the temporal and spatial considerations for the conversion of an AR-dependent to an AR-independent tumor type. We describe the more prevalent treatment-emergent phenotypes aris-ing in the CRPC disease continuum, including amphicrine, AR-low, double-negative, neuroendo-crine and small cell phenotypes. We discuss the association between the loss of AR activity and tumor plasticity with a focus on the roles of transcription factors like SOX2, DNA methylation, alterna-tive splicing, and the activity of epigenetic modifiers like EZH2, BRD4, LSD1, and the nBAF complex in conversion to a neuroendocrine or small cell phenotype in CRPC. We hypothesize that only a subset of CRPC tumors have the propensity for tumor plasticity and conversion to the neuroendo-crine phenotype and outline how we might target these plastic and emergent phenotypes in CRPC. In conclusion, we assess the current and future avenues for treatment and determine that the heter-ogeneity of CRPCs lacking AR activity will require diverse treatment approaches.

Restricted access

Raghavendra T K Poluri, Virginie Paquette, Éric P Allain, Camille Lafront, Charles Joly-Beauparlant, Cindy Weidmann, Arnaud Droit, Chantal Guillemette, Martin Pelletier, and Étienne Audet-Walsh

Prostate cancer (PCa) cells rely on the androgen receptor (AR) signaling axis to reprogram metabolism to sustain aberrant proliferation. Whether additional transcription factors participate to this reprogramming remains mostly unknown. To identify such factors, DNA motif analyses were performed in the promoter and regulatory regions of genes sensitive to androgens in PCa cells. These analyses identified two transcription factors, KLF5 and NFYA, as possibly associated with PCa cell metabolism. In clinical datasets, KLF5 and NFYA expression levels were associated with disease aggressiveness, being significantly decreased and increased, respectively, during PCa progression. Their expression was next investigated by qPCR and Western blot in human PCa cell models, revealing a positive regulation of KLF5 by androgens and a correlation between NFYA and AR protein expression status. siRNA-mediated knockdown of KLF5 increased human PCa cell proliferation rate in AR-positive cell models, suggesting a tumor suppressor function. Live-cell metabolic assays showed that knockdown of KLF5 promoted mitochondrial respiration, a key metabolic pathway associated with PCa progression. The opposite was observed for knockdown of NFYA regarding proliferation and respiration. RNA-seq analyses following the knockdown of either KLF5 and NFYA confirmed that both factors regulated distinct metabolic gene signatures, as well as other gene signatures, explaining their differential impact on PCa cell proliferation and metabolism. Overall, our findings identify KLF5 and NFYA as novel regulators of PCa cell metabolism.

Free access

Meng Ji, Yanli Yao, Anan Liu, Ligang Shi, Danlei Chen, Liang Tang, Guang Yang, Xing Liang, Junfeng Peng, and Chenghao Shao

Restricted access

Nitya Raj, Youyun Zheng, Haley Hauser, Joanne Chou, Johnathan Rafailov, Jad Bou-Ayache, Peter Sawan, Jamie Chaft, Jennifer Chan, Kimberly Perez, Charles Rudin, Laura Tang, and Diane Reidy-Lagunes

The mammalian target of rapamycin inhibitor everolimus is an established therapy for well-differentiated (WD) foregut neuroendocrine tumors (NETs). Pre-clinical data demonstrates a potential synergistic role for cyclin dependent kinase 4/6 inhibition and everolimus to treat this disease. In this phase II multicenter study, patients with advanced foregut WDNETs received combination ribociclib and everolimus until confirmed disease progression or unacceptable toxicity. The first 12 patients received ribociclib 300 mg three weeks in a row with a 1 week break and everolimus 2.5 mg daily (recommended phase II dose). Due to unexpected hematologic and infectious toxicities, the trial was put on hold, modified, and an additional 9 patients received ribociclib 200 mg and everolimus 2.5 mg daily. The primary end point was progression-free survival. Archived pre-treatment tumor was profiled by next-generation sequencing to evaluate for genomic markers of drug response. Twenty-one patients were treated (median age, 56; range, 24 to 77). The study did not meet the pre-specified criteria to advance to stage two. No patients experienced an objective response. Thirteen patients (62%) experienced stable disease. Median progression-free survival was 7.7 months (95% CI, 2.8 months to not reached). Eleven of the first 12 patients (92%) developed grade 2 or more myelosuppression. Ten patients (84%) experienced treatment interruption and 8 patients (67%) required dose reduction. Genetic testing in archival tumor tissue samples failed to identify a predictive biomarker of disease stabilization. The combination of ribociclib and everolimus had insufficient activity to warrant further investigation in foregut WDNETs.

Restricted access

Guoliang Wang, Na Ren, Shengcai Wang, Xuexi Zhang, Yanzhen Li, Nian Sun, Qiaoyin Liu, Jie Zhang, Wenqi Song, and Xin Ni

It is uncertain whether serum TSH concentration is an independent risk factor for the malignancy of pediatric thyroid nodules. We sought the association of serum TSH concentration with the malignancy of pediatric thyroid nodules and with the characteristics of pediatric thyroid cancer. A total of 219 pediatric thyroid nodule patients were collected retrospectively for 5 consecutive years. The medical records collected included sex, age, serum TSH concentration, thyroid autoantibody status, thyroid ultra-sonography parameters, histological type, and pathological TNM stages. The serum TSH concentrations were compared between benign and malignant nodules or corresponding subgroups. Binary logistic regression analysis was used to evaluate the correlation of TSH concentration with the malignancy of thyroid nodules and with the characteristics of pediatric thyroid cancer. There was no significant difference in TSH concentration between benign nodule and thyroid cancer in total subjects and various subgroups. The serum TSH level was not correlated with the malignancy of thyroid nodules in univariate analysis, but negatively correlated with the malignancy of thyroid nodules (odds ratio = 0.856, P  = 0.013) after adjusting for the patients’ sex, age, thyroid autoantibody status, and nodule size. The serum TSH level was not correlated with the tumor characteristics in pediatric thyroid cancer patients. In conclusion, the serum TSH concentration seems not to be a carcinogenic factor in pediatric thyroid nodule patients, nor to be an independent risk factor for characteristics of pre-existing pediatric thyroid cancers.

Restricted access

Avaniyapuram Kannan Murugan, Abeer Al-Amr, Mysoon M Al-Ansari, Pulicat S Manogaran, Hindi Al-Hindi, and Ali S Alzahrani

Thyroid cancer is a common endocrine neoplasm. Despite its good prognosis, it can lead to significant morbidity and mortality due to metastasis and recurrence. However, the factors involved in metastasis are not well studied. Therefore, we selected matrix metalloproteinases 2 (MMP2) and determined whether it has any role in thyroid cancer. We sequenced the exons of MMP2 in 211 samples including 16 multi-nodular goiters and 195 differentiated thyroid cancers. We identified four non-synonymous single nucleotide polymorphisms (SNPs) of the MMP2 gene in 3.06% (6/195) thyroid cancers. Of the four tumors harboring MMP2 SNPs, three (75%) concomitantly had BRAF V600E. Hence, we speculated that the MMP2 SNPs may cooperate with BRAF V600E in promoting tumor aggressiveness. Overexpression of two MMP2 SNPs (P38L and T458I) exhibited markedly enhanced gelatinase activity with an intact dimerization and induced strong cortactin foci formation in HEK293T cells. Stable expression of the two MMP2 SNPs in BRAF V600E positive BCPAP cells dramatically enhanced cell proliferation, colony formation, and focus formation. Analysis of the morphology of MMP2 SNP bearing BCPAPV600E cells exhibited highly invasive phenotypes characterized by a high rate of wound healing and enhanced cell invasion compared with parental BCPAPV600E cells bearing vector. We also determined that BCPAPV600E cells stably transfected with MMP2 SNPs were highly sensitive to the treatment of BRAF inhibitor, PLX4720. Our study demonstrates that MMP2 SNPs could cooperate with BRAF V600E to promote oncogenicity, migration, and invasiveness of PTC cells. These results suggest that a subset of papillary thyroid cancer with this genetic makeup may benefit from BRAF-mediated therapeutic interventions.