Abstract. Oral squamous cell carcinoma (OSCC) is a prevalent cancer worldwide. Let-7 family has been shown to function as a tumor suppressor through regulating multiple oncogenic signaling. Recent study reported that combined underexpression of miR-205 and let-7d showed negative correlation with the survival prognosis of head and neck cancer patients. However, the let-7d-involved mechanism in regulating OSCC is still unclear. In this study, we first demonstrated that let-7d expression was significantly decreased while Twist and Snail expression was increased in OSCC cancer cell lines and primary cultures as compared to normal human oral keratinocyte cells. To further investigate the role of let-7d in OSCC, we applied the SPONGE method to knock down let-7d in OECM-1 and two primary OSCC cell types. The results showed that knockdown of let-7d promote epithelialmesenchymal transition (EMT) traits and migratory/invasive capabilities in OSCC cells. Furthermore, down-expression of let-7d significantly activated Twist and Snail expressions and chemo-resistant abilities of OSCC cells. Notably, overexpression of let-7d effectively reversed the EMT phenotype, blocked migratory/invasive abilities, and further increased the chemosensitivity in oral cancer tumor initiating ALDH1 + cells. In sum, these results show that let-7d negatively modulates EMT expression and also plays a role in regulating chemo-resistant ability in oral cancer. IntroductionHead and neck squamous cell carcinoma, including oral squamous cell carcinoma (OSCC), is the sixth most prevalent malignancy worldwide and accounts for approximately 8-10% of all cancers in Southeast Asia (1,2). The prognosis of OSCC remains dismal as more than 50% of the patients die of this disease or complications within 5 years under current therapies (2). To increase patient survival rate, investigations elucidating the mechanisms of tumorigenesis in OSCC are urgently needed (2). Some studies have suggested that subsets of cancer stem cells (CSC) or tumor initiating cells (TICs) are responsible for tumor progression as well as recurrence after conventional chemotherapy (3). However, there is lack of suitable markers for isolating the crucial subset of tumor cells that is capable of reforming new tumors in vivo and accounts for tumor relapse in OSCC, according to CSC hypothesis of tumorigenesis.MicroRNAs (miRNAs), highly conserved small RNA molecules that regulate gene expression, can act as cancer signatures, oncogenes or tumor suppressors (4). The ubiquitously expressed let-7/miR-98 family was one of the first mammalian miRNAs to be identified (5-8). Let-7 family members have been described as being down-regulated during cancer progression in various human cancers including lung, gastric, ovarian, colon cancer, leiomyoma and melanoma (5-13). Let-7d, a member of the let-7 family of miRNAs, has also been shown to act as tumor suppressor, most likely through targeting RAS (14) or high mobility group A2 (15). Let-7d regulates senescence of human cord blood-derived multipotent ste...
Large-scale Au nanodisk arrays are successfully fabricated using nanospherical-lens lithography (NLL). By incorporating both rotational oblique-angle deposition and oxygen plasma treatment, the improved NLL is capable of fabricating Au nanodisks with diameters as small as 75 nm that cover an area larger than 1 cm(2). The fabricated nanodisk arrays are investigated as sensitive localized surface plasmon resonance (LSPR) sensors. The extinction spectra of the Au nanodisk arrays reveal a narrower LSPR peak when the diameter becomes smaller. The shape imperfection severely limits the minimum obtainable linewidth, especially when the nanodisk diameter is smaller than 200 nm. The imperfection is found to be improved by thermal annealing at high temperatures. The maximum theoretically predicted and experimentally obtained figure-of-merit for Au nanodisk arrays whose periodicities are 500 nm are around 15 and 9, respectively. Further optimization of the periodicity and thickness of the nanodisks will further improve their sensitivity and lead to more novel applications.
Various infra-red and planar chiral metamaterials were fabricated using the modified Nanospherical-Lens Lithography. By replacing the light source with a hand-held ultraviolet lamp, its asymmetric light emission pattern produces the elliptical-shaped photoresist holes after passing through the spheres. The long axis of the ellipse is parallel to the lamp direction. The fabricated ellipse arrays exhibit localized surface plasmon resonance in mid-infra-red and are ideal platforms for surface enhanced infra-red absorption (SEIRA). We also demonstrate a way to design and fabricate complicated patterns by tuning parameters in each exposure step. This method is both high-throughput and low-cost, which is a powerful tool for future infra-red metamaterials applications.
Pancreatic ductal adenocarcinoma (PDAC) and cancer-associated cachexia (CAC) are multifactorial and characterized by dysregulated inflammatory networks. Whether the proinflammatory cytokine IL-20 is involved in the complex networks of PDAC and CAC remains unclear. Here, we report that elevated IL-20 levels in tumor tissue correlate with poor overall survival in 72 patients with PDAC. In vivo, we establish a transgenic mouse model (KPC) and an orthotopic PDAC model and examine the therapeutic efficacy of an anti-IL-20 monoclonal antibody (7E). Targeting IL-20 not only prolongs survival and attenuates PD-L1 expression in both murine models but also inhibits tumor growth and mitigates M2-like polarization in the orthotopic PDAC model. Combination treatment with 7E and an anti-PD-1 antibody shows better efficacy in inhibiting tumor growth than either treatment alone in the orthotopic PDAC model. Finally, 7E mitigates cachexic symptoms in CAC models. Together, we conclude IL-20 is a critical mediator in PDAC progression.
Rationale:Hyponatremia following duloxetine treatment has been reported in patients with major depressive disorder, fibromyalgia, diabetic neuropathy, or sciatic pain. The manifestations of duloxetine-induced hyponatremia are varying in different individuals. The overall prognosis for this type of hyponatremia is favorable if properly managed.Patient concerns and diagnoses:Herein, we reported rapid-onset hyponatremia and delirium in an older patient after 2 doses of duloxetine, which was used to control his postherpetic neuralgia. Laboratory examinations revealed a rapid decline in serum sodium level and indicated the possibility of syndrome of inappropriate antidiuretic hormone (SIADH).Interventions:Discontinuation of duloxetine, restriction of water intake, and intravenous supplement of normal saline were adopted to manage the hyponatremia.Outcomes:Serum concentration of sodium gradually normalized following aforementioned strategies.Lessons:Special attention to the electrolyte abnormality is recommended in old patients undergoing duloxetine treatment.
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