Dosage effects of resveratrol on thymus involution in D-galactose-treated mice.

The thymus regulates a specific microenvironment for the growth and maturation of naive T cells. Involution of immune function was an important factor during body aging. Preventing the senescence of immune organs has become a major medical issue. Resveratrol (RSV) has been proved to delay the aging of many organs including the thymus. However, the underlying mechanism remains indefinite and the dosages of RSV on thymus involution need to be further clarified. In the current study, the senescence-accelerated mice were produced using d-galactose for two months. RSV at different dosages (25, 50, 100 mg kg-1  day-1 ) was then administered. The alteration of the thymic morphological structure was observed. It showed that three dosages of RSV significantly decreased cellular senescence of the thymus and no dosage difference was detected. For cellular proliferation and apoptosis of the thymus, 50 and 25 mg/kg per day of RSV displayed the best effects on cellular proliferation and apoptosis in the thymus, respectively. Furthermore, 50 mg/kg per day of RSV increased the expression of FoxN1 both at transcription and translation levels. These findings indicated that RSV could delay thymus atrophy in a dosage-dependent pattern and FoxN1 might involve in the beneficial mechanism of RSV, which was of great significance for the enhancement of thymic health and organic immunity. PRACTICAL APPLICATIONS: Resveratrol has been proved to delay aging of many organs including of thymus. In the present study, we explored the dosage of resveratrol on thymus involution and the expression of transcription factors forkhead box protein N1 (FoxN1) in the senescenceaccelerated mice induced by D-galactose. The results indicated that resveratrol could delay thymus atrophy in a dosage-dependent pattern within a certain dose range, and higher RSV concentration may have drug toxicity, which suggests that the dosage of RSV requires attention, And FoxN1 might involve in the beneficial mechanism of resveratrol supplement, which was of great significance to explore the mechanism for the enhancement of thymus immunity.

Curcumin protects thymus against D-galactose-induced senescence in mice.

Senescence-related decline of thymus affects immune function in the elderly population and contributes to the prevalence of many relevant diseases like cancer, autoimmune diseases, and other chronic diseases. In this study, we investigated the therapeutic effects of curcumin, an agent that could counter aging, and explored its optimal intake and the alteration of autoimmune regulator (Aire) after curcumin treatment in the D-galactose (D-gal)-induced accelerated aging mice. ICR mice were intraperitoneally injected with D-gal for 8 weeks to establish the accelerated aging model and given curcumin with 50, 100, and 200 mg/kg body weight per day by gavage, respectively, for 6 weeks. It indicated that the D-gal-treated mice developed structural changes in the thymi compared with the control group without D-gal and curcumin treatment. As the supplements of curcumin, it resulted in a restoration of the normal thymic anatomy with an increase of proliferating cells and a reduction of apoptotic cells in the thymi of the D-gal-induced aging model mice. Curcumin administration could also expand the expression level of Aire from mRNA level and protein level. The current study demonstrated that curcumin could ameliorate senescence-related thymus involution via upregulating Aire expression, suggesting that curcumin can rejuvenate senescence-associated alterations of thymus induced by D-gal accumulation.

Gallic acid attenuates thymic involution in the d-galactose induced accelerated aging mice.

Senescence is an inevitable and complicated phenomenon. Age-associated thymic involution increases the risk of infectious diseases, which results in the immunosenescence and leads to a poor immune function. d-galactose (d-gal) can cause damages that resemble accelerated aging in mice. Gallic acid (GA), as one of the natural phenolic compounds, has been demonstrated to act in antioxidant and anti-tumor effects. In this study, we explored the effects of GA in preventing the age-related thymic involution and the alterations of the forkhead box protein N1 (FoxN1) in d-gal induced accelerated aging mice. The accelerated aging mice model was established by intraperitoneal injection d-gal for eight weeks and given GA with 200, 250, 500 mg/kg body weight per day, respectively, for six weeks. It showed that the d-gal-treated mice developed structural changes in the thymi compared to normal control mice. With supplement of GA, the mice restored the normal thymic anatomy, including the thickening cortex compartment and clearer cortico-medullary junction. The d-gal-treated mice showed a severe reduction in the number of thymocytes, GA mice also displayed the increased numbers of CD4 + T cells through flow cytometric analysis. GA treatment increased the proliferative cells by BrdU incorporation assay and reduced the numbers of apoptotic cells with FITC-12-dUTP labeling (TUNEL). The expression of FoxN1 was also found increased in GA treated mice by immunohistochemistry and quantitative reverse transcriptase PCR (qRT-PCR). Taken together, our results suggested that the administration of GA opposed the involution of thymus via stimulation of FoxN1 expression and proliferation of cells in a dose-dependent manner.

[Effects and mechanism of Plastrum testudinis extracts on PC12 apoptosis].

OBJECTIVE: To observe the inhibitive effects of Plastrum testudinis Extracts (PTE) on 6-Hydroxydopamine (6-OHDA) induced PC12 cells apoptosis and explore its mechanism. METHODS: PC12 apoptosis model was established by serum starvation and damaged for 24 hours. The cells were randomly divided into four groups:control group, 6-OHDA group, PTE 3, 30 microg/mL group. Cell optical density was determined by MTT; Ratio of cell apoptosis was examined by Annexin V/PI double stain flow cytometry (FCM), and Western blot was applied to detect the BCL-X/L expression. RESULTS: MTT and FCM analysis demonstrated that PTE can elevate PC12 cells viability and reduce their apoptotic ratio in a dose dependent manner. Western blot showed that PTE promoted the expression of BCL-X/L. CONCLUSION: PTE can inhibit the apoptosis of PC12 induced by 6-OHDA in a dose dependent manner, and its mechanism maybe associated partially with up-regulating BCL-X/L signaling pathway.

[Active ingredients of Plastrum Testudinis inhibit epidermal stem cell apoptosis in serum-deprived culture].

OBJECTIVE: To investigate the effects of active ingredients of Plastrum Testudinis (PT) on serum deprivation-induced apoptosis of epidermal stem cells (ESCs). METHODS: ESCs were isolated from the back skin of fetal Sprague-Dawley rats with 2 weeks of gestational age and were divided into normal group (10% fetal bovine serum), control group (serum-deprived culture) and groups treated with serum deprivation plus active ingredients of PT, including ethyl acetate extract (2B), stearic acid ethyl ester (S6), tetradecanoic acid sterol ester (S8) and (+)-4-cholesten-3-one (S9). The vitality of ESCs after 24, 48 and 72 h of culture was measured with MTT method; apoptotic ESCs double-stained with Annexin V-FITC and propidium iodine were detected by flow cytometry (FCM); Bcl-2 and caspase-3 expressions were measured by Western blotting. RESULTS: MTT results indicated that the vitality of ESCs in the active ingredients of PT groups at 48 h was increased compared with the control group and 2B had better effects than the others. FCM results indicated that 2B had the most significant anti-apoptotic effect compared with the control as well as S6, S8 and S9. Western blot results indicated that 2B, S6, S8 and S9 up-regulated the expression of Bcl-2 protein and down-regulated the expression of caspase-3 protein compared with the control. CONCLUSION: Ethyl acetate extract of Plastrum Testudinis inhibits epidermal stem cell apoptosis in serum-deprived culture by regulating the expressions of Bcl-2 and caspase-3 proteins and has a stronger anti-apoptotic effect than its constituents S6, S8 and S9.

BMP-Id pathway targeted by cholesterol myristate suppresses the apoptosis of PC12 cells.

Identifying small molecules that suppress apoptosis is promising for the therapy of brain diseases. We recently showed that autocrine bone morphogenetic protein (BMP) signaling involves the effects of cholesterol myristate present in traditional Chinese medicine on mesenchymal stem cells. The present study evaluated the effects of cholesterol myristate on the apoptosis and BMP signaling of PC12 cells. PC12 cells transfected by the inhibitor of differentiation (Id1) promoter reporter construct target gene of BMP4 signaling; cholesterol myristate increases the activity of Id1 promoter. However, structurally related steroids such as cholesterol, ß-sitosterol and cholesten-3-one, lack of the myristate, did not affect the activity of Id1 promoter, suggesting that myristate is essential for the effect of cholesterol myristate. These effects depend on BMP signaling. Apoptosis analysis indicated that cholesterol myristate inhibited the apoptosis of PC12 cells induced in serum-free condition. Cholesterol myristate significantly increases the expression of BMP4, BMPRIA, p-Smad1/5/8, Id1 and its antiapoptotic target gene Bcl-xL in PC12 cells treated in serum-free condition. Moreover, BMP antagonist reduced the anti-apoptotic effect of cholesterol myristate. Thus, this study is to provide evidence that BMP-Id pathway targeted by cholesterol myristate suppresses the apoptosis of PC12 cells. Our findings are therefore of considerable therapeutic significance and provide the potential of newly exploiting cholesterol myristate and clinically in brain disease therapies.

Apigenin accelerates lipopolysaccharide induced apoptosis in mesenchymal stem cells through suppressing vitamin D receptor expression.

BACKGROUND: Transplantation of mensenchymal stem cells (MSCs) has been proposed as a promising way for tissue engineering. However, the application of MSCs for transplantation will undergo apoptosis due to the extremely harsh microenvironment such as excessive inflammation. Apigenin (API) has been reported to protect cells against inflammatory damage and cell death by exhibiting anti-inflammatory and anti-oxidative capacity. Here we investigated the modulatory effects of API in lipopolysaccharide (LPS)-mediated inflammation and apoptosis of MSCs, and further defined the underlying mechanism. METHODS: Effects of different concentrations of API (0, 5, 10, 20, 40 and 80 µmol/L) for 24 hours, and LPS (0, 0.5 and 5.0 µg/ml) for 6 hours and 24 hours on MSCs viability were assayed by MTT. Based on this, MSCs were pretreated with different concentrations of API (0 - 40 µmol/L) at the indicated times (6, 12 and 24 hours) followed by exposure to 5 µg/ml LPS for 24 hours. MTT, phase-contrast microscopy, annexinV/propidium iodide (PI) double stain flow cytometry (FCM) and Hoechst staining were applied to explore the effects of API on MSCs induced by 5 µg/ml LPS for 24 hours. In addition, reverse-transcription polymerase chain reaction (RT-PCR) was applied to detect the mRNA expression of pro-inflammatory factors including cyclooxygenase-2 (COX-2), inducible nitric oxide synthase (iNOS), nuclear factor-kappa B (NF-κB), pro-apoptotic gene caspase-3, Bad, and anti-apoptotic gene Bcl-2. Moreover, AutoDock software was used to imitate the docking score of API and vitamin D receptor (VDR). In parallel, Western blotting and RT-PCR were used to investigate protein and mRNA expression of VDR. RESULTS: MSCs stimulated with LPS 5 µg/ml for 24 hours was used as a model of apoptosis induced by over inflammatory stimulus. API (0 - 40 µmol/L) had non-toxic effect on MSCs; however, it could decrease mRNA expression of COX-2, iNOS and NF-κB at different time points in MSCs induced by LPS, except for API at the concentration of 5 µmol/L. RESULTS: from phase-contrast microscopy, MTT, Hoechst staining and AnnexinV/PI double stain FCM demonstrated that with the increasing concentrations of API and extension of administrating time, significant morphological changes of MSCs occurred, viability of cells was strongly inhibited, and meanwhile, apoptosis of LPS-administrated MSCs was exacerbated, compared with LPS individual group. In addition, API promoted caspase-3, Bad mRNA expression and inhibited Bcl-2 mRNA expression in a time-dependent and concentration- dependent manner. Further study found that pro-apoptosis effect of API was related to suppress VDR expression. CONCLUSIONS: API could inhibit the expression of inducible inflammatory factors, therefore exert the strong anti-inflammatory function. However, API could not protect MSC apoptosis induced by LPS but amplified the apoptosis. The apoptosis is related to Bad/Bcl-2 increasing and caspase-3 activation, which is mediated through suppressing VDR expression.