Notch pathway inhibition targets chemoresistant insulinoma cancer stem cells

Capodanno, Ylenia; Buishand, Floryne O.; Pang, Lisa Y.; Kirpensteijn, Jolle; Mol, Jan A.; Argyle, David

doi:10.1530/erc-17-0415

Cited by 32 publications

(26 citation statements)

References 62 publications

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“…Unsupervised clustering of these DEGs showed that normal pancreatic tissues clustered with primary INS lesions from patients bearing early stage INS (TNM stage I), and clustered separately from primary INS lesions from patients bearing advanced stage disease (TNM stage II–IV). When comparing primary INS with INS-metastatic lymph nodes, only 164 DEG were identified, suggesting less transcriptomic variances between these tissues 21 . Unsupervised clustering showed that primary INS from patients with high-grade INS (Grade 2) clustered together with the INS-metastatic lymph nodes.…”

Section: Discussionmentioning

confidence: 99%

“…Differences in gene expression of pairwise comparisons were organised as follows: (i) normal pancreas against primary INS; (ii) primary INS against INS-metastatic lymph nodes; (iii) normal lymph nodes against INS-metastatic lymph nodes. The normalised gene counts for differentially expressed genes were analysed for hierarchical clustering analysis with the R package “heatmap2” 21 , 23 .…”

Section: Methodsmentioning

confidence: 99%

“…Since the completion of the canine genome sequencing 19 , various RNA-sequencing (RNA-seq) studies have identified gene signature characteristics of malignancy in a variety of cancers occurring in dogs such as meningioma 13 , mammary carcinoma 16 , melanoma 20 and bladder carcinoma 18 , providing additional information about the oncogenesis of human tumours. The close resemblance of canine INS to human malignant INS with regard to clinical signs, histopathology and disease progression, makes canine INS an interesting study model for human malignant INS 21 . For instance, our recent study comparing human and canine INS cell lines identified the Notch pathway as a key regulator of stemness and chemoresistance both in vitro and in vivo, providing a rationale for focused further research on this druggable target for INS in both species 2 .…”

Section: Introductionmentioning

confidence: 99%

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Transcriptomic analysis by RNA sequencing characterises malignant progression of canine insulinoma from normal tissue to metastatic disease

Capodanno

Buishand

Pang

et al. 2020

Sci Rep

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insulinomas (inS) are the most common human and canine functioning pancreatic neuroendocrine tumours. The long-term prognosis for malignant INS is poor, because micrometastases are frequently missed during surgery. As human and canine malignant inS share clinical and histopathological features, dogs have been proposed as models for INS research. Using RNA-sequencing, we conducted a pilot study to better understand the underlying molecular mechanisms of canine inS. normal canine pancreas and lymph node control tissues were compared with primary INS and INS-metastatic lymph nodes, revealing more than 3,000 genes differentially expressed in normal pancreas compared to primary INS. Only 164 genes were differentially expressed between primary INS and INS-metastatic lymph nodes. Hierarchical clustering analysis demonstrated similar genetic profiles in normal pancreas and early clinical stage primary INS, whereas late clinical stage primary INS resembled the genetic profile of INS-metastatic lymph nodes. These findings suggest that markers of malignant behaviour could be identified at the primary site of the disease. Finally, using the REACTOME pathways database, we revealed that an active collagen metabolism, extracellular matrix remodelling, betacell differentiation and non-beta-cell trans-differentiation might cause disease progression and hyperinsulinism in INS, identifying major pathways worthy of future research in this currently poorly controlled disease. Insulinomas (INS) are the most commonly diagnosed functioning pancreatic neuroendocrine tumours in humans and dogs 1,2. They are insulin-producing tumours that can arise from pancreatic beta-cells 1,2. Diagnosis and treatment of human and canine INS can be challenging and prognosis highly variable depending on therapeutic decisions 3-5. Currently, surgical resection of primary localised benign INS is considered the treatment of choice. However, the prognosis after surgery for advanced-stage disease is still poor and adjuvant therapy options are limited 5,6. Thus, better therapeutic tools are urgently required. Traditional benign versus malignant classification of these tumours is often difficult at initial diagnosis. Grade and stage are the major determinants of prognosis in humans 4,7. Similarly, in dogs, TNM stage, increased nuclear size, pleomorphism, Ki67 and DNA content are considered valuable histological features to predict the biological behaviour of INS 6, 8. Still, grading and staging have been so far insufficient to fully assess the degree of malignancy of human and canine INS. In both humans and dogs, these tumours can have heterogeneous microscopic findings and the presence of metastases, mainly located in the liver, represents so far the only definitive feature that characterises individual tumours as malignant 3,8-11. Canine INS are considered typically malignant as they

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Transcriptomic analysis by RNA sequencing characterises malignant progression of canine insulinoma from normal tissue to metastatic disease

Capodanno

Buishand

Pang

et al. 2020

Sci Rep

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“…Additionally, the γ-secretase inhibitor RO4929097 can significantly inhibit Notch target genes Hes1 and Hey1, and it is in a phase II clinical setting to treat breast cancer, ovarian cancer, and renal cell carcinoma [67]. The combination of RO4929097 and 5-FU can decrease the proportion of the CSC subgroup with insulinomas (INS) [68]. DAPT (GSI-IX) is a new type of Notch1 inhibitor that was initially used to treat Alzheimer's disease, and increasing number of studies have shown that it can inhibit CSCs [69].…”

Section: Notch Signaling Pathway Inhibitorsmentioning

confidence: 99%

Emerging agents that target signaling pathways in cancer stem cells

et al. 2020

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Cancer stem cells (CSCs) contribute to the initiation, recurrence, and metastasis of cancer; however, there are still no drugs targeting CSCs in clinical application. There are several signaling pathways playing critical roles in CSC progression, such as the Wnt, Hedgehog, Notch, Hippo, and autophagy signaling pathways. Additionally, targeting the ferroptosis signaling pathway was recently shown to specifically kill CSCs. Therefore, targeting these pathways may suppress CSC progression. The structure of small-molecule drugs shows a good spatial dispersion, and its chemical properties determine its good druggability and pharmacokinetic properties. These characteristics make small-molecule drugs show a great advantage in drug development, which is increasingly popular in the market. Thus, in this review, we will summarize the current researches on the small-molecule compounds suppressing CSC progression, including inhibitors of Wnt, Notch, Hedgehog, and autophagy pathways, and activators of Hippo and ferroptosis pathways. These small-molecule compounds emphasize CSC importance in tumor progression and propose a new strategy to treat cancer in clinic via targeting CSCs.

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“…Likewise, Notch signaling has now long been found to be altered and pathophysiologically involved in pancreatic carcinogenesis. Various approaches to pharmacologically target oncogenic Notch signaling in different cancers including pancreatic cancer have been developed, including the application of γ-secretase inhibitors and antagonists against Notch ligands [73,74,75], and some of these endeavors are still underway at various stages of preclinical as well as early clinical evaluation [76,77,78,79,80,81,82]. …”

Section: Novel Therapeutic Targetsmentioning

confidence: 99%

Novel Targets in Pancreatic Cancer Therapy - Current Status and Ongoing Translational Efforts

Feldmann¹

2018

Oncol Res Treat

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Pancreatic ductal adenocarcinoma (PDAC, pancreatic cancer) carries one of the poorest overall prognoses of all human malignancies known to date. Despite the introduction of novel therapeutic regimens, the outcome has not markedly improved over the past decades, the incidence rates are almost identical to the mortality rates, and PDAC is projected to soon become the second most common cause of cancer-related mortality in Western countries. Despite this clear medical need to develop novel therapeutic strategies against this dire malady, this need has so far not been addressed with sufficient institutional attention and support in terms of research funding and strategical programs. Given the still growing life expectancy and projected demographic changes with a growing proportion of senior citizens in many European societies, this discrepancy is likely to become even more pressing in the future. This article provides a brief overview of ongoing preclinical efforts to identify novel targets and, based on this, to develop novel strategies to treat advanced pancreatic cancer and improve survival and the quality of life of patients suffering from this malignancy.

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Notch pathway inhibition targets chemoresistant insulinoma cancer stem cells

Cited by 32 publications

References 62 publications

Transcriptomic analysis by RNA sequencing characterises malignant progression of canine insulinoma from normal tissue to metastatic disease

Transcriptomic analysis by RNA sequencing characterises malignant progression of canine insulinoma from normal tissue to metastatic disease

Emerging agents that target signaling pathways in cancer stem cells

Novel Targets in Pancreatic Cancer Therapy - Current Status and Ongoing Translational Efforts

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