Use of Transcriptome Sequencing to Analyze the Effects of Different Doses of an Astragalus-Rhubarb-Saffron Mixture in Mice with Diabetic Kidney Disease.

Purpose: To investigate the therapeutic effect and underlying mechanism of a traditional Chinese medicine (TCM) mixture consisting of Astragalus, rhubarb, and saffron in a mouse model of diabetic kidney disease (DKD). Methods: Forty-eight db/db mice received no TCM (DKD model), low-dose TCM, medium-dose TCM, or high-dose TCM, and an additional 12 db/m mice received no TCM (normal control). Intragastric TCM or saline (controls) was administered daily for 24 weeks. Blood glucose, body weight, serum creatinine (SCr), blood urea nitrogen (BUN), blood lipids, and urinary microalbumin were measured every four weeks, and the urinary albumin excretion rate (UAER) was calculated. After 24 weeks, kidney tissues were collected for transcriptome sequencing, and the main functions of these genes were determined via functional enrichment analysis. Results: Compared with the DKD model group, the medium-dose and high-dose TCM groups had significantly decreased levels of SCr, BUN, total cholesterol, triglycerides, low-density lipoprotein cholesterol, high-density lipoprotein cholesterol, and UAER (all p<0.05). We identified 42 genes that potentially functioned in this therapeutic response, and the greatest effect on gene expression was in the high-dose TCM group. We also performed functional enrichment analysis to explore the potential mechanisms of action of these different genes. Conclusion: A high-dose of the Astragalus-rhubarb-saffron TCM provided the best prevention of DKD. Analysis of the kidney transcriptome suggested that this TCM mixture may prevent DKD by altering immune responses and oxygen delivery by hemoglobin.

Clinical effect and safety of dendritic cell-cytokine-induced killer cell immunotherapy for pancreatic cancer: a systematic review and meta-analysis.

BACKGROUND: Although promising results have recently been reported using dendritic cells (DCs) and cytokine-induced killer cells (CIKs) to treat pancreatic cancer (PC), its clinical effect and safety are associated with some controversy, and lack sufficient evidence. Here, we conducted a meta-analysis of 21 clinical trials to better evaluate the efficacy of DC-CIK immunotherapy in clinical practice to treat PC. METHODS: PubMed, Cochrane Library, China National Knowledge Infrastructure (CNKI) and Wanfang Data Knowledge Service Platform (WANFANG Data) were searched to identify clinical trials that used DC-CIK immunotherapy for PC. Meta-analysis was performed using RevMan 5.3 and Stata 12.0. RESULTS: A total of 21 clinical trials involving 1549 patients were included. Compared with traditional treatment, DC-CIK immunotherapy improved and increased the clinical indices such as complete remission, partial remission, overall response rate, disease control rate, overall survival (0.5-y OS, 1-y OS, 1.5-y OS, 2-y OS and 3-y OS), interferon γ and CD3+, CD4+, CD4+/CD8+ and CD3+CD56+ lymphocyte. Additionally, DC-CIK immunotherapy reduced stable disease, progression disease, mortality, CD8+, CD4+CD25+CD127 low lymphocyte and interleukin-4. Furthermore, it showed a low incidence of adverse reactions (22%). CONCLUSION: In contrast to traditional therapy, DC-CIK immunotherapy not only shows improved short-term effect, long-term effect and immunologic function, but also reduces mortality and negative immunoregulatory index, and shows mild adverse reactions. This is the first study to evaluate the clinical effect and safety of DC-CIK immunotherapy for PC, and it indicated that DC-CIK immunotherapy may be suitable for patients with advanced PC or intolerance to radiotherapy and chemotherapy.

Identification of two novel mutations in the ATP7B gene that cause Wilson's disease.

BACKGROUND: Wilson's disease is an autosomal recessive disorder characterized by liver disease and/or neurologic deficits due to copper accumulation and is caused by pathogenic mutations in the ATP7B gene. DATA SOURCES: Two unrelated Chinese patients born to nonconsanguineous parents who were diagnosed with earlyonset Wilson's disease. DNA sequencing and bioinformation analysis were conducted. RESULTS: We have identified four mutations in two family trios, of which two were novel, namely, c. 3028A>G (p. K1010E) and c.3992T>G (p.Y1331X), in each patient. CONCLUSIONS: Gene testing is playing an important role in diagnosis of Wilson's disease. The early-onset of Wilson's disease is apparently not associated with P-ATPase domain in the ATP7B protein. Our findings further widen the spectrum of mutations involving the ATP7B gene.

Effects of endokinin A/B and endokinin C/D on the antinociception properties of hemopressin in mice.

The current study evaluated the effects of hemopressin (HP) on pain modulation by endokinin A/B (EKA/B) and endokinin C/D (EKC/D) at the supraspinal level in mice. Intracerebroventricular administration of HP (10 nmol) fully antagonized the hyperalgesia induced by EKA/B (10, 30, and 100 pmol), and induced a dose-dependent potent analgesic effect. HP at different concentrations (10 pmol, 100 pmol, and 1 nmol) showed varying effects on the analgesic effect of EKA/B (3 nmol). HP extended the duration of the analgesic effect of EKC/D (3 nmol). Moreover, HP at different concentrations (10 pmol, 5 pmol, 1 pmol, and 100 fmol) co-administered with EKC/D (30 pmol) induced significant analgesia at two different time points: 5 min and 50 min. To investigate the antinociceptive mechanism, we used SR140333B and SR142801. HP (1 pmol) potentiated the analgesic effect of SR140333B (100 pmol)+EKA/B (30 pmol) in 5-10 min, while HP (100 pmol) had no effect in the analgesia induced by SR140333B (3 nmol)+EKA/B (3 nmol). HP (1 nmol) fully inhibited the analgesic effect of SR140333B (3 nmol)+EKC/D (3 nmol) or SR142801 (3 nmol)+EKC/D (3 nmol). HP (1 pmol) weakened the analgesic effect of SR142801 (100 pmol)+EKA/B (30 pmol), but HP (100pmol) strengthened the analgesic effect of SR142801 (3 nmol)+EKA/B (3 nmol). These findings may pave the way for a new strategy on investigating the interaction between tachykinins and opioids on pain modulation.

Effects of endokinin A/B, endokinin C/D, and endomorphin-1 on the regulation of mean arterial blood pressure in rats.

Endokinins are four novel human tachykinins, including endokinins A (EKA), B (EKB), C (EKC), and D (EKD). Endokinin A/B (EKA/B) is the common C-terminal decapeptide in EKA and EKB, while endokinin C/D (EKC/D) is the common C-terminal duodecapeptide in EKC and EKD. In this study, we attempted to investigate the interactions between EKA/B, EKC/D, and endomorphin-1 (EM-1) on the depressor effect at peripheral level. The effects of EKA/B produced a U-shaped curve. The maximal effect was caused by 10 nmol/kg. EKC/D and EM-1 showed a dose-dependent relationship. Co-administration of EKA/B (0.1, 1, 10 nmol/kg) with EM-1 produced effects similar to those of EKA/B alone but slightly lower. Co-injection of EKA/B (100 nmol/kg) with EM-1 caused an effect stronger than any separate injection. Co-administration of EKC/D (10 nmol/kg) with EM-1 (30 nmol/kg) caused a depressor effect, which was one of the tradeoffs of EM-1 and EKC/D. Mechanism studies showed that SR140333B could block the depressor effects of EKA/B, EKC/D, EM-1, EKA/B+EM-1, and EKC/D+EM-1; SR48968C could block EM-1, EKA/B, EKC/D, and EKC/D+EM-1 and partially block EKA/B+EM-1; SR142801 could block EM-1, EKC/D, and EKC/D+EM-1 and partially block EKA/B and EKA/B+EM-1; naloxone could block EM-1, EKC/D, and EKC/D+EM-1 and partially block EKA/B and EKA/B+EM-1. Pretreatment with NG-nitro-l-arginine methyl ester partially decreased depressor intensity and half-recovery time of EKA/B and EKC/D.

Preliminary analgesic properties of deltorphin-5-methoxytryptamine chimeric opioid peptides.

To further understand the relationship between melatonin (MT) and deltorphins (Dels) in pain modulation, two chimeric peptides (Del I-5-methoxytryptamine and Del II-5-methoxytryptamine) both containing 5-methoxytryptamine at the carboxyl-terminal of Dels mimicking MT were designed, synthesized and characterized by tail-flick assay in mice. Results showed that intracerebroventricular (i.c.v.) administration of Del I-5-methoxytryptamine (YaFDVVG-X, X is 5-methoxytryptamine, 5, 50 nmol/kg) or Del II-5-methoxytryptamine (YaFEVVG-X, X is 5-methoxytryptamine, 5, 50 nmol/kg) produced stronger analgesia than deltorphins (Del I or Del II alone), and acting even longer and stronger than cocktails containing Del I or Del II (50 nmol/kg) and MT (50 nmol/kg). Naloxone (i.p., 100 nmol/kg) could totally block the analgesic effects induced by the chimeric peptides, while luzindole (specific antagonist of melatonin receptor, i.p., 250 nmol/kg) could only partially inhibit the effects down to that induced by Dels alone. Interestingly, Del I-5-methoxytryptamine and Del II-5-methoxytryptamine act weaker with δ receptor than Dels in vitro but could induce much longer analgesia through co-activating δ opioid receptor and melatonin receptor.