It remains unclear how obesity worsens treatment outcomes in patients with pancreatic ductal adenocarcinoma (PDAC). In normal pancreas, obesity promotes inflammation and fibrosis. We found in mouse models of PDAC that obesity also promotes desmoplasia associated with accelerated tumor growth and impaired delivery/efficacy of chemotherapeutics through reduced perfusion. Genetic and pharmacological inhibition of angiotensin-II type-1 receptor (AT1) reverses obesity-augmented desmoplasia and tumor growth and improves response to chemotherapy. Augmented activation of pancreatic stellate cells (PSCs) in obesity is induced by tumor-associated neutrophils (TANs) recruited by adipocyte-secreted IL-1β. PSCs further secrete IL-1β, and inactivation of PSCs reduces IL-1β expression and TAN recruitment. Furthermore, depletion of TANs, IL-1β inhibition, or inactivation of PSCs prevents obesity-accelerated tumor growth. In pancreatic cancer patients, we confirmed that obesity is associated with increased desmoplasia and reduced response to chemotherapy. We conclude that crosstalk between adipocytes, TANs, and PSCs exacerbates desmoplasia and promotes tumor progression in obesity.
BR/LA PDAC patients with no progression on neoadjuvant FOLFIRINOX should be offered surgical exploration. Except size, traditional pathological parameters fail to predict survival among resected FOLFIRINOX patients. Resected FOLFIRINOX patients have survival that appears to be superior than that of resectable patients who go directly to surgery.
The recent impressive clinical responses to antibody-based immunotherapy have prompted the identification of clinically relevant tumor antigens that can serve as targets in solid tumors. Among them, B7-H3, a member of the B7 ligand family, represents an attractive target for antibody-based immunotherapy, it is overexpressed on differentiated malignant cells and cancer-initiating cells, with limited heterogeneity, and high frequency (60% of 25,000 tumor samples) in many different cancer types, but has a limited expression at low level in normal tissues. In nonmalignant tissues, B7-H3 has a predominantly inhibitory role in adaptive immunity, suppressing T-cell activation and proliferation. In malignant tissues, B7-H3 inhibits tumor antigen–specific immune responses, leading to a protumorigenic effect. B7-H3 also has nonimmunologic protumorigenic functions, such as promoting migration and invasion, angiogenesis, chemoresistance, and endothelial-to-mesenchymal transition, as well as affecting tumor cell metabolism. As a result, B7-H3 expression in tumors is associated with poor prognosis. Although experimental B7-H3 silencing reduces cancer cell malignant potential, there has been limited emphasis on the development of B7-H3–blocking antibodies, most likely because the B7-H3 receptor remains unknown. Instead, many antibody-based strategies utilizing distinct effector mechanisms to target B7-H3–expressing cancer cells have been developed. These strategies have demonstrated potent antitumor activity and acceptable safety profiles in preclinical models. Ongoing clinical trials are assessing their safety and efficacy in patients. Identification of the B7-H3 receptor will improve our understanding of its role in tumor immunity, and will suggest rational strategies to develop blocking antibodies, which may enhance the therapeutic efficacy of tumor immunity.
To investigate the association of dietary habits with cognitive function among elders (>65 years). Complete sociodemographic, dietary information, serum measurements, and Mini-Mental State Examination (MMSE) assessments were available for 237 elderly men and 320 women residing in Velestino, Greece (a rural Greek town). All models were adjusted for age, education, social activity, smoking, depression symptomatology (using the Geriatric Depression Scale), MedDietScore (range 0-55), and metabolic syndrome. About 49.8% men and 66.6% women had MMSE scores <24, with a mean MMSE score of 22.7±4.43 and 21.1±4.73, respectively. Adherence to the Mediterranean diet was moderate (mean MedDietScore of 34.1±3.25 in men and 35.1±2.48 in women). Indicative cognitive impairment (MMSE score <24) was positively associated with age and low education in women and with depressive symptoms, low education status, and low social activity in men. Adherence to the Mediterranean diet was positively associated with MMSE score in men (P=.02), but inversely associated in women (P=.04). Concerning the food groups studied, intake of pulses, nuts, and seeds was associated with lower likelihood of having MMSE score<24 in men (P=.04). Only the Mediterranean dietary pattern showed a significant association with MMSE score positive for cognitive impairment (i.e., protective in men, but not in women), while individual food groups or nutrients did not achieve significance. The latter findings support the role of whole diet in the prevention of mental disorders, and state a research hypothesis for a sex-diet interaction on cognitive function among elders.
Purpose: This study evaluated the potential role of immune cells and molecules in the pathogenesis and clinical course of PanNET. Experimental Design: Surgically resected PanNETs (N=104) were immunohistochemically analyzed for Ki67 index, mitotic rate, macrophage, CD4+ cell, and CD8+ T cell infiltration, as well as HLA class I, PD-L1, and B7-H3 expression. Results were correlated with clinicopathological characteristics as well as with disease-free (DFS) and disease-specific (DSS) survival. Results: The median age of the 57 WHO grade 1 and 47 WHO grade 2 patients was 55 years. High intratumoral CD8+ T cell infiltration correlated with prolonged DFS (P=0.05), especially when the number of tumor-associated macrophages (TAMs) was low. In contrast, high peritumoral CD4+ cell and TAM infiltration were associated with a worse DFS and DSS. PD-L1 and B7-H3 were expressed in 53 and 78% PanNETs, respectively. HLA class I expression was defective in about 70% PanNETs. HLA-A expression correlated with favorable DSS in PD-L1-negative tumors (P=0.02). TAM infiltration (P=0.02), WHO grade (P=0.04), T stage (P=0.01), and lymph node positivity (P=0.04) were independent predictors of DFS. TAM infiltration (P=0.026) and T stage (P=0.012) continued to be predictors of DFS in WHO grade 1 PanNET patients. TAM infiltration was the sole independent predictor of DSS for WHO grade 1 and 2 patients (P=0.02). Therefore, this biomarker may contribute to identifying WHO grade 1 patients with poor prognosis. Conclusions: TAM infiltration appears to be the most informative prognostic biomarker in PanNET. It may represent a useful immunotherapeutic target in PanNET patients.
Purpose Angiotensin system inhibitors (ASIs) can improve prognosis in multiple cancer types, including pancreatic ductal adenocarcinoma (PDAC). However, no study has examined the effect of ASIs alone or combined with adjuvant chemotherapy in resected PDAC patients. Experimental Design We performed an analysis of the records of ASI users and non-user patients with PDAC seen at Massachusetts General Hospital between January 2006 and December 2010. To identify mechanisms of ASIs in PDAC, we performed RNA-Seq of resected primary lesions. Results 794 consecutive patients were included. In 299 resected patients, ASI-users experienced longer overall survival (OS) in both univariate (median OS: 36.3 vs. 19.3 months, p=0.011) and adjusted multivariate (HR, 0.505; 95%CI, 0.339 - 0.750; p=0.001) analyses. Propensity score adjusted analysis also showed a longer median OS for chronic ASI-users. In unresected patients, the beneficial effect of ASIs was significant in patients with locally advanced disease, but not in metastatic patients. RNA-Seq analysis revealed in tumors of ASI-users (lisinopril) a normalized extracellular matrix, a reduced expression of genes involved in PDAC progression (e.g. WNT and Notch signaling) and an increased expression of genes linked with the activity of T cells and antigen-presenting cells. Finally, chronic use of ASI was associated with a gene expression signature which is predictive of survival in independent validation cohorts. Conclusions In patients with non-metastatic PDAC, chronic ASI use is associated with longer OS independently of chemotherapy. Our RNA-Seq analysis suggests that ASI reduce the malignant potential of cancer cells and stimulate the immune microenvironment in primary PDAC.
Malignant transformation of cells is frequently associated with defective HLA class I antigen processing machinery (APM) component expression. This abnormality may have functional relevance, since it may have a negative impact on tumor cell recognition by cognate T cells. Furthermore, HLA class I APM abnormalities appear to have clinical significance, since they are associated with poor prognosis in several malignant diseases and may play a role in the resistance to immune checkpoint inhibitor-based immunotherapy. In this paper, we have reviewed the literature describing abnormalities in HLA class I APM component expression in many types of cancer. These abnormalities have been reported in all types of cancer analyzed with a frequency ranging between a minimum of 35.8% in renal cancer and a maximum of 87.9% in thyroid cancer for HLA class I heavy chains. In addition, we have described the molecular mechanisms underlying defects in HLA class I APM component expression and function by malignant cells. Lastly, we have discussed the clinical significance of HLA class I APM component abnormalities in malignant tumors.
Pancreatic ductal adenocarcinoma (PDAC) has a 5-year relative survival rate of 8% and is projected to be the second leading cause of cancer death by 2030, underscoring the urgency to develop new strategies to improve current therapeutic modalities for PDAC. Targeting pancreatic cancer stem cells (PCSCs), which are resistant to radiation and chemotherapy, is a promising strategy. A novel approach which can be readily clinically translated is to repurpose disulfiram (DSF), a drug for treating alcoholism, to target PCSCs. Chemoradiation or the combination of chemotherapy agents FOLFIRINOX, currently standard care for PDAC, can increase stemness in some established or primary PDAC cell lines. However, DSF in the presence of exogenously or endogenously supplied copper (Cu), when combined with chemotherapy or chemoradiation, targets both PCSCs and nonstem PDAC cells. Previously, we demonstrated that DSF/Cu effectively targets breast cancer stem cells in the context of fractionated radiation (FIR) by inhibiting the NF-κB-stemness gene pathway. Therefore, the hypothesis that PCSCs can be effectively targeted by incorporating DSF/Cu into the standard chemoradiation regimen consisting of 5-FU and FIR was investigated and found to be effective in vitro in targeting PCSCs, identified as either ALDH or CD24+/CD44+/ESA+ or sphere-forming cells, as well as nonstem PDAC cells. In vivo, the combination of IR+5-FU+DSF/Cu was more effective (72.46%) than either IR+5-FU (30.32%) or IR+FOLFIRINOX therapy (43.04%) in inhibiting growth of the mouse Panc02 tumor. These encouraging results provide a solid foundation for clinical trials to improve the outcomes of the current standard chemoradiation therapy regimen for PDAC.
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