Cd2+, Mn2+ and Zn2+ induced synthesis of nuclear RNA in the livers of normal and adrenalectomized rats

Burning mouth syndrome (BMS) is a chronic pain disorder characterized by severe burning sensation in normal looking oral mucosa. Diagnosis of BMS remains to be a challenge to oral healthcare professionals because the method for definite diagnosis is still uncertain. In this study, a quantitative saliva proteomic analysis was performed in order to identify target proteins in BMS patients’ saliva that may be used as biomarkers for simple, non-invasive detection of the disease. By using isobaric tags for relative and absolute quantitation labeling and liquid chromatography-tandem mass spectrometry to quantify 1130 saliva proteins between BMS patients and healthy control subjects, we found that 50 proteins were significantly changed in the BMS patients when compared to the healthy control subjects (p ≤ 0.05, 39 up-regulated and 11 down-regulated). Four candidates, alpha-enolase, interleukin-18 (IL-18), kallikrein-13 (KLK13), and cathepsin G, were selected for further validation. Based on enzyme-linked immunosorbent assay measurements, three potential biomarkers, alpha-enolase, IL-18, and KLK13, were successfully validated. The fold changes for alpha-enolase, IL-18, and KLK13 were determined as 3.6, 2.9, and 2.2 (burning mouth syndrome vs. control), and corresponding receiver operating characteristic values were determined as 0.78, 0.83, and 0.68, respectively. Our findings indicate that testing of the identified protein biomarkers in saliva might be a valuable clinical tool for BMS detection. Further validation studies of the identified biomarkers or additional candidate biomarkers are needed to achieve a multi-marker prediction model for improved detection of BMS with high sensitivity and specificity.

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Blood–Brain Barrier Transport of Valproic Acid

Cornford

Diep

Pardridge

1985

Journal of Neurochemistry

101

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Valproic acid distribution in brain is less than that of other anticonvulsants such as phenytoin or phenobarbital. Possible mechanisms for this decreased distribution space in brain include (a) increased plasma protein binding of valproate relative to the other anticonvulsants and (b) asymmetric blood-brain barrier (BBB) transport of valproate such that the brain-to-blood flux exceeds the blood-to-brain flux. These mechanisms are investigated in the present studies using the intracarotid injection technique in rats and rabbits. In the rat, the brain uptake index (BUI) of [14C]valproate relative to [3H]water is 51 +/- 6%, indicating the blood-to-brain transport of water is twofold greater than that of valproate. However, the BUI of [14C]valproate relative to [3H]water decreased with time after carotid injection during a 4-min washout period, which indicates that brain-to-blood transport of valproate is greater than that of water. This suggests that the permeability of the BBB to valproate is polarized, with antiluminal permeability being much greater than luminal permeability. In rabbits, the BUI of [14C]valproate is 47 +/- 7% in newborns and 17 +/- 6% in adult animals. However, the high drug extraction in newborns may be attributed to decreased cerebral blood flow in the neonate as the BBB permeability-surface area (PS) products are unchanged (e.g., PS = 0.13 and 0.11 ml min-1 X g-1 in the newborn and adult rabbit, respectively). With regard to plasma protein binding effects on valproate transport, brain valproate uptake was also measured in the presence of human, lamb, pig, rat, horse, goat, hamster, dog, and mouse sera. Higher brain uptakes were observed when the unbound fraction of drug increased. However, our data indicate that a fraction of the valproic acid entering the capillaries bound to plasma proteins had the capacity to equilibrate with brain because of enhanced drug dissociation from albumin in the brain microcirculation. Since plasma protein-bound valproate is available for uptake by brain, the major factor underlying the diminished distribution of the drug in brain appears to be the asymmetric transport properties of the BBB to valproic acid.

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MicroRNA-92b promotes tumor growth and activation of NF-κB signaling via regulation of NLK in oral squamous cell carcinoma

Liu

Diep

Mao

et al. 2015

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miR-92b has been reported to be dysregulated in many types of human cancers. However, the role of miR-92b in oral squamous cell carcinoma (OSCC) is unknown. The aim of the present study was to investigate the function and mechanism of miR-92b in human OSCC. Using quantitative reverse‑transcription PCR (qRT-PCR), we found that the miR-92b level in primary tumors (n=85) was significantly elevated compared with that in the adjacent normal tissues (p<0.001). A high level of miR-92b was significantly associated with a large tumor size (p=0.005), advanced tumor stage (p<0.001) and poorer prognosis (p=0.04). Functionally, miR-92b was shown to not only promote the proliferation of OSCC cells in MTT and colony formation and xenograft assays, but also to inhibit cell apoptosis in a flow cytometric assay. In western blotting and luciferase assay, NLK was identified as a direct and functional target of miR-92b. We also found that NLK was involved in miR-92b-induced cell proliferation, and its protein level was obviously downregulated in the miR-92b-overexpressing xenograft tumors. Finally, luciferase reporter assay and fluorescent immunostaining revealed that miR-92b activated the NF-κB signaling pathway, which may be responsible for the effects of miR-92b on cell proliferation. Taken together, our results indicate that miR-92b upregulation accelerates tumor growth and present a novel mechanism of miRNA‑mediated NF-κB activation in OSCC.

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Acupuncture and Transcutaneous Electrical Acupoint Stimulation Do Not Suppress Gag Reflex

Diep

Karibe

Goddard

et al. 2021

Medical Acupuncture

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Cynthia P. Diep

Potential protein biomarkers for burning mouth syndrome discovered by quantitative proteomics

Blood–Brain Barrier Transport of Valproic Acid

MicroRNA-92b promotes tumor growth and activation of NF-κB signaling via regulation of NLK in oral squamous cell carcinoma

Acupuncture and Transcutaneous Electrical Acupoint Stimulation Do Not Suppress Gag Reflex

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