Splenocyte Apoptosis Research Articles

ITRAQ-based quantitative proteomics analysis of the spleen reveals innate immunity and cell death pathways associated with heat stress in broilers (Gallus gallus)

Heat stress induces immune dysfunction and cell death, but the mechanisms by which this occurs are not fully understood. Therefore, the isobaric tags for relative and absolute quantification (iTRAQ) was used to identify differentially abundant proteins (DAPs) in the spleen between heat-stressed group and control group, and real time qPCR (RT-qPCR), and Parallel Reaction Monitoring (PRM) were performed to validate the differentially abundant proteins of interest. The results showed that nine down regulated DAPs related to innate immunity were enriched in the Toll-like receptor signaling pathway (IRF3 and CD40), NOD-like receptor signaling pathway (TNFAIP3, IL-18, CathL2, IRF3, IAP3 and CYBA), RIG-I-like receptor signaling pathway (TRIM25 and IRF3), and Cytosolic DNA-sensing pathway (IL-18, POLR3F and IRF3). Six down or up regulated DAPs related to cell death were enriched in apoptosis (CTSD, PARP3 and IAP3), ferroptosis (FTH) and necroptosis (FTH, CHMP1B, TNFAIP3, PARP3 and IAP3). In addition, compared with control group, heat stress significantly increased serums IL-1β, IL-6, TNF-α, and IFN-α, as well as the splenocyte apoptosis rate, whereas significantly decreased serum IFN-β. Taken together, these findings indicate that heat stress inhibits innate immunity and induces cell death through different pathways. SignificanceOur study identified potential signaling pathways and differentially abundant proteins related to the innate immunity and cell death of broilers under high temperature. These findings will facilitate a better understanding of the mechanisms of broiler response to heat stress and provide possible targets for alleviating heat stress in broiler production.

Radioprotective effect of Hohenbuehelia serotina polysaccharides through mediation of ER apoptosis pathway in vivo.

Exposure to ionizing radiation would induce human body to serious oxidative damage, leading to production of various diseases. In present study, the radioprotective effect based on endoplasmic reticulum (ER) apoptosis pathway of neutral polysaccharides from Hohenbuehelia serotina (NTHSP) was systematically investigated through establishment of radiation damage model in mice. Toxicological analyses showed that NTHSP did not possess any acute or chronic toxic on mice within experimental concentration range. In order to elucidate the radioprotective mechanism, immunohistochemical and RT-qPCR methods were respectively performed. The results suggested that the mice administrated with NTHSP could significantly prevent the splenocytes apoptosis induced by gamma-radiation through block of three major types in ER apoptosis pathway: PERK-ATF4-CHOP, IRE1α-XBP1-CHOP, as well as ATF6-XBP1-CHOP, compared with the mice in radiation group. Moreover, NTHSP could also inhibit the activation of Caspase-12 in ER, induced by gamma-radiation. Taken together, our results indicated that H. serotina polysaccharides possessed the excellent potential to serve as natural radioprotector for human body against the damage induced by radiation.

Induction of pathological changes and impaired expression of cytokines in developing female rat spleen after chronic excess fluoride exposure.

This study was designed to investigate the effects of excessive fluoride on spleen toxicity. Twenty-four healthy female rats were randomly divided into two groups, each of 12 rats. Each group of female rats was given a control diet and either F- = 0 mg/L or an excessive F- = 150 mg/L in the drinking water for 120 days. The histomorphological and ultrastructural changes in their splenic tissues were observed under light and transmission electron microscopes. DNA damage and splenocyte apoptosis were examined using the micronucleus (MN) assay, single-cell gel electrophoresis (SCGE), and flow cytometry. The expression levels of cytokines, including interleukin (IL)-1β, IL-2, IL-6, and tumor necrosis factor (TNF)-α, were determined through immunohistochemistry and Western-blot analysis. Results demonstrated that the histomorphological characteristics and ultrastructure of the splenic tissues were affected by excessive fluoride. Nuclear dying, nuclear membrane dissolution, mitochondrial vacuolation, and endoplasmic reticulum dilation were observed. SCGE and MN assays showed that the nuclear DNA of splenocytes was damaged by fluoride treatment, and splenocyte apoptosis was exacerbated in the fluoride group. With damage to the splenocyte structure and DNA, the protein expression levels of IL-1β, IL-2, IL-6, and TNF-α were significantly downregulated by exposure to fluoride. Excessive fluoride ingestion caused splenic pathological damage and abnormal cytokine expression in female rats.

Duration dependent effect of chronic stress on primary and secondary lymphoid organs and their reversibility in rats

The present study was undertaken to investigate whether or not chronic stress effect and its reversibility on lymphoid organs is duration dependent. Male rats were exposed to restraint (1 h) followed by a gap of 4 h to forced swimming exercise (15 min) daily for 2, 4 and 8 weeks. After each exposure period, rats were allowed to recover for 6 weeks. Stress exposure resulted in duration dependent decreases in weight of thymus and axillary lymph nodes, lymphocyte counts of spleen, thymus and axillary lymph nodes and number of islets of white pulp of spleen and increases in apoptotic index of splenocytes, thymocytes and lymphocytes of axillary lymph nodes. All the parameters of lymphoid organs studied showed significant alterations in 2 weeks of stress exposure indicated their sensitivity to stress effects in short term exposure and thymus was the most sensitive organ among all. The alterations in all the parameters of spleen and majority of parameters of thymus and axillary lymph nodes returned to control level in recovery group rats of 2 and 4 weeks exposure but not in that of 8 weeks exposure. The present study for the first time reveal that severity of stress effects on lymphoid organs increases with increasing duration of exposure and shorter the exposure period faster the recovery. In addition, an in vitro study showed that corticosterone caused apoptosis of thymocytes, splenocytes and lymphocytes of axillary lymph nodes in dose dependent manner. Thus corticosterone induced death of cells of lymphoid organs under stress is the major cause of involution of lymphoid organs.

Calliandra surinamensis lectin (CasuL) does not impair the functionality of mice splenocytes, promoting cell signaling and cytokine production

CasuL is a lectin (carbohydrate-binding protein) isolated from the leaf pinnulae of Calliandra surinamensis that is toxic against cancer cells. In this study, the effects of CasuL on the activation of immune cells were evaluated in BALB/c mice splenocytes. Assays measuring the changes in cytosolic calcium concentration ([Ca2+]cyt), mitochondrial membrane potential (ΔΨm), and reactive oxygen species (ROS) levels associated with cell viability, proliferation, and cytokine and nitric oxide production were performed. The lectin (3.12–100 μg/mL) did not induce apoptosis or necrosis of splenocytes, and treatment for 48 h at 12.5 μg/mL stimulated cell proliferation. High cytosolic ROS levels were found in cells incubated with CasuL (12.5 μg/mL), but it did not affect [Ca2+]cyt, mitochondrial ROS, and ΔΨm levels. Furthermore, CasuL promoted high IL-2 and TNF-α production but did not affect nitric oxide release. In conclusion, CasuL was able to promote oxidative stress in mouse immune cells without inducing cell damage, and stimulated proliferation and cytokine production. These findings suggest the potential use of CasuL in future antitumoral and immunological targets.

Selenium Ameliorates AFB1-Induced Excess Apoptosis in Chicken Splenocytes Through Death Receptor and Endoplasmic Reticulum Pathways.

Aflatoxin B1 (AFB1) can cause hepatotoxicity, genotoxicity, and immunosuppressive effects for a variety of organisms. Selenium (Se), as an essential nutrient element, plays important protective effects against cell apoptosis induced by AFB1. This research aimed to reveal the ameliorative effects of selenium on AFB1-induced excess apoptosis in chicken splenocytes through death receptor and endoplasmic reticulum pathways in vivo. Two hundred sixteen neonatal chickens, randomized into four treatments, were fed with basal diet (control treatment), 0.4mg/kg Se supplement (+Se treatment), 0.6mg/kg AFB1 (AFB1 treatment), and 0.6mg/kg AFB1 + 0.4mg/kg Se (AFB1 + Se treatment) during 21days of experiment, respectively. Compared with the AFB1 treatment, the levels of splenocyte apoptosis in the AFB1 + Se treatment were obviously dropped by flow cytometry and TUNEL assays although they were still significantly higher than those in the control or + Se treatments. Furthermore, the mRNA expressions of CASP-3, CASP-8 and CASP-10, GRP78, GRP94, TNF-α, TNF-R1, FAS, and FASL of splenocytes in the AFB1 + Se treatment by qRT-PCR assay were significantly decreased compared with the AFB1 treatment. These results indicate that Se could partially ameliorate the AFB1-caused excessive apoptosis of chicken splenocytes through downregulation of endoplasmic reticulum and death receptor pathway molecules. This research may rich the knowledge of the detoxification mechanism of Se on AFB1-induced apoptosis.

Induced Pluripotent Stem Cells (iPS)‐Derived Extracellular Vesicles Improves Immune Dysfunction and Attenuates Splenomegaly in Aged Mice

Background and ObjectiveAging is associated with declined immune function and increased inflammatory responses. Secreted extracellular vesicles (EVs) are loaded with growth factors, cytokines, and miRNAs. The purpose of this study is to investigate the effect of intravenous delivery of iPS cell‐derived EVs on the aging‐associated immune dysfunction.Methods and ResultsThe iPS cell‐derived EVs was confirmed by the expression of CD9, CD63 and CD83. The populations of T and B lymphocytes were decreased in aged mice, indicating that aging impairs the immune function. Intravenous delivery of EVs rescued the aging‐related decrease in immune cell populations. The size and weight of spleens were increased in aged mice, suggesting that aging causes spleen hypertrophy (splenomegaly). We found that the aging‐related splenomegaly was accompanied by increased cell death, necrosis, unbalanced ratio of immune cells, and augmented inflammation. Immunosenescence, cell arrest, apoptosis, fibrosis and iron accumulation was also found in the hypertrophied spleens of aged mice. Interestingly, EVs significantly attenuated aging‐associated splenomegaly, immunosenescence, cell arrest, apoptosis, and spleen remodeling. Aging enhanced inflammation as evidenced by increased immune cells and proinflammatory cytokines (IL‐1β, IL‐18, TNF‐α) in aged mice. iPS cell‐derived EVs markedly reduced inflammation, improved population of B and T cells, and increased anti‐inflammatory cytokines (IL‐4, IL‐6, IL‐10, IL‐13, TGF‐β) in aged mice. In comparison with EVs alone, EVs overexpressing klotho protein (an antiaging protein) more effectively enhanced the immune function and suppressed inflammation in aged mice.ConclusionsThese results showed for the first time that EVs alone or in combination with klotho overexpression suppressed aging‐associated inflammation and splenocyte apoptosis likely via modulating the immune function. EVs may be a promising interventional strategy for aging‐related immune dysfunction and splenomegaly.Support or Funding InformationNIH R01 AG049780, HL118558, AND DK093403.This abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.

Vaccination with FasL-/TCL plus MHSP65 induces improved anti-lung cancer immunity in mice

In a previous study, we constructed a MHSP65-TCL anti-lung cancer vaccine with Lewis lung carcinoma TCL plus MHSP65, and illustrated its anti-lung cancer effect through specific and nonspecific anti-tumor immunity. However, TCL contains some immunoinhibit components such as FasL. If this component can be eliminated from TCL, the anti-tumor immunity of MHSP65-TCL constructed with TCL should be improved. In the present study, we knocked down FasL from Lewis lung carcinoma cells and prepared MHSP65-(FasL-/TCL) with this cell line's TCL. After further investigation, MHSP65-(FasL-/TCL) exhibited a better ability to reduce splenocytes apoptosis, promote its activation and secretion of secretingTNF-β, IL-2 compared with MHSP65-(FasL+/TCL). Accordingly, specific and nonspecific antitumor immunity induced by MHSP65-(FasL-/TCL) is stronger than that of MHSP65-(FasL+/TCL). In vivo, MHSP65-(FasL-/TCL) immunization can prolong survival of Lewis lung carcinoma bearing mice. Thus, we report that the anti-lung cancer effect of MHSP65-TCL can be improved by removal of FasL from the TCL. It provides a new route to construct MHSP65-TCL and other antitumor vaccines based on TCL.

Sodium fluoride induces apoptosis in mouse splenocytes by activating ROS-dependent NF-κB signaling.

In this study, we investigated the roles of reactive oxygen species (ROS) and nuclear factor-κB (NF-κB) signaling in sodium fluoride-induced DNA damage and apoptosis in mouse splenocytes. Intragastric administration of 12, 24 or 48 mg/kg sodium fluoride resulted in a time- and dose-dependent increase in DNA fragmentation and apoptosis in mouse splenocytes on days 21 and 42. High ROS levels correlated with increased levels of phosphorylated IκB kinase and NF-κB p65 and decreased levels of inhibitory kappa B protein in splenocytes from mice treated with sodium fluoride. Moreover, splenocytes from sodium fluoride-treated mice showed high expression of pro-apoptotic proteins, including Bim, Bax, Bak, caspase-3 and poly ADP-ribose polymerase, and low expression of the anti-apoptotic proteins BcL-2 and BcL-xL. These results show that sodium fluoride induces apoptosis in mouse splenocytes by enhancing ROS-dependent NF-κB signaling.

The potential protective role of Akropower against Atrazine- induced humoral immunotoxicity in rabbits

Introduction to the herbicide Atrazine (ATR) can bring about immunotoxicity, aside from other unfavorable results for the creature and human wellbeing. We went for clarifying the genotoxic mechanisms required in humoral immunotoxicity of Gesaprim® (ATR) and their constriction by Akropwer. Forty rabbits (1.5kg±20%) were utilized and appointed into 4 equal groups. group 1: control; group 2: Received Atrazine at 1/10 LD50 via food; group 3: Received Akropwer at 1ml/1l/day by means of drinking water; group 4: Received both Atrazine and Akropwer associatively by the same said dosage and course. Atrazine and Akropower exposure were accomplished for 60days. The genotoxic mechanisms of Atrazine- induced humoral immunotoxicity were explained by increased serum total protein and albumin levels, decreased RHDV antibody titer only after four weeks of vaccination and increased level of spleen Fas and Caspase-III genes expression in Atrazine-exposed rabbits. Marked splenocytes apoptosis were detected in the immunohistochemical examination by caspase-III technique and TUNEL assay. Akropower attenuated ATR-induced apoptosis through down-regulation of Fas and Caspase-III genes expression and suppression of their signaling pathway. In conclusion, induction of apoptosis by overexpression of Fas and Caspase-III genes gives a new insight into the mechanism of ATR immunotoxicity. The protective part of Akropower, on the other hand, was characterized by attenuation of Fas and Caspase-III genes mediated apoptosis.

Aflatoxin B1 affects apoptosis and expression of death receptor and endoplasmic reticulum molecules in chicken spleen.

Aflatoxin B1 (AFB1) is a natural product of the Aspergillus genus of molds, which grow on several foodstuffs stored in hot moist conditions, and is among the most potent hepatocarcinogens and immunosuppression presently known. The latter was related to the up-regulated apoptosis of immune organs. However, the effect of expression of death receptor and endoplasmic reticulum molecules in AFB1-induced apoptosis of chicken splenocytes was largely unknown. The objective of this study was to investigate this unknown field. One hundred and forty four one-day-old chickens were randomly divided into control group (0 mg/kg AFB1) and AFB1 group (0.6 mg/kg AFB1), respectively and fed with AFB1 for 21 days. Histological observation demonstrated that AFB1 caused slight congestion and lymphocytic depletion in the spleen. TUNEL and flow cytometry assays showed the excessive apoptosis of splenocytes provoked by AFB1. Moreover, quantitative real-time PCR analysis revealed that AFB1 induced the elevated mRNA expression of Fas, FasL, TNF-α, TNF-R1, Caspase-3, Caspase-8, Caspase-10, Grp78 and Grp94 in the spleen. These findings suggested that AFB1 could lead the excessive apoptosis and alter the expression of death receptor and endoplasmic reticulum molecules in chicken spleen.

Acrylamide induces immunotoxicity through reactive oxygen species production and caspase-dependent apoptosis in mice splenocytes via the mitochondria-dependent signaling pathways

IntroductionAcrylamide (AA), a well-known food neo-contamination, can be produced during food preparing at high temperature. The immunotoxicity of AA have been revealed in the experimental animals. In this study, we explored the molecular mechanism responsible for the immunotoxicity of AA. MethodsThe mice splenocytes exposed to AA concentrations (0,5,10 and 25 mM) and apoptosis cell death was measured through Annexin V/Propidium Iodide staining by flow cytometry method. The role of extrinsic and intrinsic pathways were evaluated respectively by activity of caspase-8 and-9. Furthermore, the spleen mitochondria were obtained using differential centrifugation from mice and mitochondrial toxicity endpoints were determined after AA exposure. ResultsExposure of splenocytes to AA increased the splenocytes’ apoptotic cell death. Also, increased activation of both caspase-8 and-9 were observed in mice splenocytes after AA exposure. Treatment of isolated mitochondria with AA lead to disturbance in activity of complex I and III of mitochondrial electron transfer chain that result in increased reactive oxygen species (ROS) production, lipid peroxidation and glutathione oxidation. These events were accompanied by mitochondrial membrane swelling, collapse of mitochondrial membrane potential and significant falling of mitochondrial activity. ConclusionAA-mediated mitochondrial dysfunction along with mitochondrial oxidative damage seems to be critical events leading to activation of caspase cascade and apoptotic cell death in spleen that finally can attenuate immune system’s function.

Euptox A Induces G1 Arrest and Autophagy via p38 MAPK- and PI3K/Akt/mTOR-Mediated Pathways in Mouse Splenocytes.

Euptox A (9-oxo-10, 11-dehydroageraphorone), the main toxin isolated from Eupatorium adenophorum, is known to induce immunotoxicity in animals. However, the precise mechanism underlying the effects of Euptox A on splenocytes is unclear. Here, we aimed to investigate the molecular mechanisms underlying the effect of Euptox A in mouse spleens after its intragastric administration and found that Euptox A exhibits proautophagic effects in splenocytes. Euptox A markedly arrested the splenocytes in the G0/G1 phase, which was accompanied by inhibition of the expression of the positive regulators CDK4, CDK2, cyclin D1, PCNA, and E2F1, and promotion of the expression of the negative regulators p53, p21 Waf1/Cip1, p27 Kip1, and Chk1. We also found that Euptox A did not markedly induce splenocyte apoptosis, but induced autophagy while increasing the subcellular localization of punctate LC3, ratio of LC3-II/LC3-I, and Beclin 1 levels, and decreasing p62 levels. Euptox A also significantly inhibited p-PI3K, p-p38 MAPK, p-Akt, and p-mTOR expression, but increased PTEN and p-AMPK expression. These results indicated that Euptox A induced splenocyte autophagy by inhibiting the PI3K/Akt/mTOR pathway, suppressing p38 MAPK expression, and activating AMPK. These findings provide new insights into the mechanisms involved in spleen toxicity caused by Euptox A in mice.

Curcumin attenuates oxidative stress induced NFκB mediated inflammation and endoplasmic reticulum dependent apoptosis of splenocytes in diabetes

The present study was aimed to determine the curative role of curcumin against diabetes induced oxidative stress and its associated splenic complications. Diabetes was induced in the experimental rats via the intraperitoneal administration of a single dose of STZ (65mgkg−1body weight). Increased blood glucose and intracellular ROS levels along with decreased body weight, the activity of cellular antioxidant enzymes and GSH/GSSG ratio were observed in the diabetic animals. Histological assessment showed white pulp depletion and damaged spleen anatomy in these animals. Oral administration of curcumin at a dose of 100mgkg−1 body weight daily for 8weeks, however, restored these alterations. Investigation of the mechanism of hyperglycemia induced oxidative stress mediated inflammation showed upregulation of inflammatory cytokines, chemokines, adhesion molecules and increased translocation of NFκB into the nucleus. Moreover, ER stress dependent cell death showed induction of eIF2α and CHOP mediated signalling pathways as well as increment in the expression of GRP78, Caspase-12, Calpain-1, phospho JNK, phospho p38 and phospho p53 in the diabetic group. Alteration of Bax/Bcl-2 ratio; disruption of mitochondrial membrane potential, release of cytochrome-C from mitochondria and upregulation of caspase 3 along with the formation of characteristic DNA ladder in the diabetic animals suggest the involvement of mitochondria dependent apoptotic pathway in the splenic cells. Treatment with curcumin could, however, protect cells from inflammatory damage and ER as well as mitochondrial apoptotic death by restoring the alterations of these parameters. Our results suggest that curcumin has the potential to act as an anti-diabetic, anti-oxidant, anti-inflammatory and anti-apoptotic therapeutic against diabetes mediated splenic damage.

Increased of the hepatocytes and splenocytes apoptosis accompanies clinical improvement and higher survival in mice infected with Trypanosoma cruzi and treated with highly diluted Lycopodium clavatum.

Recent evidence includes apoptosis as a defense against Trypanosoma cruzi infection, which promotes an immune response in the host induced by T cells, type 1, 2 and 17. Currently, there is no medicine completely preventing the progression of this disease. We investigated the immunological and apoptotic effects, morbidity and survival of mice infected with T.cruzi and treated with dynamized homeopathic compounds 13c: Kalium causticum (GCaus), Conium maculatum, (GCon), Lycopodium clavatum (GLy) and 7% alcohol solution (control, vehicle compounds, GCI). There was significant difference in the increase of apoptosis in the treated groups, compared with GCI, which might indicate action of the compounds in these cells. Infected animals treated with Lycopodium clavatum presented better performance compared with other groups. GLy showed a higher amount of hepatocytes and splenocytes undergoing apoptosis, higher number of apoptotic bodies in the liver, predominance of Th1 response, increased TNF-α and decreased IL-6, higher survival, lower morbidity, higher water consumption, body temperature, tendency to higher feed intake and weight gain compared with GCI. Conium maculatum had worse results with increased Th2 response with increased IL-4, worsening of the infection with early mortality of the animals. Together, these data suggest that highly diluted medicines modulate the immune response and apoptosis, affecting the morbidity of animals infected with a highly virulent strain of T.cruzi, being able to minimize the course of infection, providing more alternative approaches in the treatment of Chagas disease.

Human Umbilical Cord Mesenchymal Stromal Cells Improve Survival and Bacterial Clearance in Neonatal Sepsis in Rats.

Sepsis is the main cause of morbidity and mortality in neonates. Mesenchymal stromal cells (MSCs) are potent immune-modulatory cells. Their effect in neonatal sepsis has never been explored. We hypothesized that human umbilical cord-derived MSCs (hUC-MSCs) improve survival in experimental neonatal sepsis. Sepsis was induced in 3-day-old rats by intravenous injection of Escherichia coli (5 × 105/rat). One hour after infection, rats were treated intravenously with normal saline, hUC-MSCs, or with interferon-γ preconditioned hUC-MSCs (107 cells/kg). Eighteen hours after infection, survival, bacterial counts, lung neutrophil and macrophage influx, phagocytosis and apoptosis of splenocytes plasma, and LL-37 concentration were evaluated. Animals were observed for survival for 72 h after E. coli injection. Treatment with either hUC-MSCs or preconditioned hUC-MSCs significantly increased survival (hUC-MSCs, 81%; preconditioned hUC-MSCs, 89%; saline, 51%; P < 0.05). Both hUC-MSCs and preconditioned hUC-MSCs enhanced bacterial clearance. Lung neutrophil influx was decreased with preconditioned hUC-MSCs. The number of activated macrophages (CD206+) in the spleen was increased with hUC-MSCs and preconditioned hUC-MSCs; preconditioned hUC-MSCs increased the phagocytic activity of CD206+ macrophages. hUC-MSCs and preconditioned hUC-MSCs decreased splenocyte apoptosis in E. coli infected rats. Finally, LL-37 plasma levels were elevated in neonatal rats treated with hUC-MSCs or preconditioned hUC-MSCs. hUC-MSCs enhance survival and bacterial clearance in experimental neonatal sepsis. hUC-MSCs may be an effective adjunct therapy to reduce neonatal sepsis-related morbidity and mortality.

Detection of RACK1 and CTNNBL1‑induced activation of mouse splenocytes using an immunoprecipitation‑based technique.

Tumor cell lysates (TCLs) have been reported to induce antitumor immunity; however, it remains unclear which elements serve a role in this process. The present study identified 768 proteins that were upregulated in TCL prepared from Lewis lung cancer cells compared with the lysate from type II alveolar epithelial cells. Among the proteins that were upregulated in TCL, receptor for activated C kinase 1 (RACK1) and catenin β‑like 1 (CTNNBL1) are closely associated with cell proliferation and the inhibition of apoptosis. To determine the role of these proteins in TCL, a protein extraction method was designed, which was based on immunoprecipitation. Using this method, RACK1 and CTNNBL1 were extracted, whereas the other proteins within the TCL were not affected. The modified TCL exhibited a stronger ability to induce splenocyte apoptosis, whereas the ability to promote cell activation was reduced. These findings suggested that the TCL depends on RACK1 and CTNNBL1 to activate mouse immunocytes, including monocytes and B lymphocytes, and inhibit apoptosis. Therefore, the present study may provide information regarding the composition of TCLs and their positive regulatory effect on immunocytes.

Protective mechanisms of purified polyphenols from pinecones of Pinus koraiensis on spleen tissues in tumor-bearing S180 mice in vivo.

The previous study evaluated the antitumor activity and the underlying mechanism of the purified polyphenols from pinecones of Pinus koraiensis (PPP-40) using a tumor-bearing S180 mice model. This study was designed to evaluate the protective effects of PPP-40 on spleen tissues of S180 mice in vivo. Pretreatment with PPP-40 (150 mg per kg BW per D) could significantly inhibit tumor growth, enhance spleen index and prevent the decline of haematological parameters of S180 mice induced by the tumor microenvironment. Moreover, the treatment with PPP-40 was shown to significantly inhibit splenocyte apoptosis by TUNEL staining and flow cytometry, characterized by the inhibition of splenocyte cycle (G0/G1) arrest, increase in the percentages of splenic T lymphocytes (CD3+ T cells) and T cell subsets (CD3+CD4+ and CD3+CD8+ T cells), as well as the production of T cell-related cytokines (IL-2, IL-12, and TNF-α) in splenocytes exposed to the tumor microenvironment. These effects were associated with a decrease in oxidative stress, as evidenced by the changes in the SOD, GSH-Px, GSH and MDA levels of liver and spleen tissues of S180 mice. Furthermore, the protective effect of PPP-40 on spleen tissues was deeply analyzed by detecting apoptosis-related proteins using immunohistochemistry staining. The results indicated that the protective multi-mechanisms of action also were associated with the inhibition of apoptosis through down-regulation protein expressions of Bax, caspase-9, caspase-8 caspase-3, Fas and up-regulation of the expressions of Bcl-2. These results suggested that PPP-40 is a natural antitumor agent and possesses strong immunomodulatory activities by protecting the spleen tissues of tumor-bearing S180 mice.

Cathepsin S inhibition changes regulatory T-cell activity in regulating bladder cancer and immune cell proliferation and apoptosis.

Regulatory T cells (Tregs) are immune suppressive cells, but their roles in tumor growth have been elusive, depending on tumor type or site. Our prior study demonstrated a role of cathepsin S (CatS) in reducing Treg immunosuppressive activity. Therefore, CatS inhibition in Tregs may exacerbate tumor growth. Using mouse bladder carcinoma MB49 cell subcutaneous implant tumor model, we detected no difference in tumor growth, whether mice were given saline- or CatS inhibitor-treated Tregs. However, mice that received inhibitor-treated Tregs had fewer splenic and tumor Tregs, and lower levels of tumor and splenic cell proliferation than mice that received saline-treated Tregs. In vitro, inhibitor-treated Tregs showed lower proliferation and higher apoptosis than saline-treated Tregs when cells were exposed to MB49. In contrast, both types of Tregs showed no difference in proliferation when they were co-cultured with normal splenocytes. Inhibitor-treated Tregs had less apoptosis in splenocytes, but more apoptosis in splenocytes with MB49 conditioned media than saline-treated Tregs. In turn, we detected less proliferation and more apoptosis of MB94 cells after co-culture with inhibitor-treated Tregs, compared with saline-treated Tregs. B220+ B-cell, CD4+ T-cell, and CD8+ T-cell proliferation and apoptosis were also lower in splenocytes co-cultured with inhibitor-treated Tregs than with saline-treated Tregs. Under the same conditions, the addition of cancer cell-conditioned media greatly increased CD8+ T-cell proliferation and reduced CD8+ T-cell apoptosis. These observations suggest that CatS inhibition of Tregs may reduce overall T-cell immunity under normal conditions, but enhance CD8+ T-cell immunity in the presence of cancer cells.

Emodin induces apoptosis of concanavalin A-stimulated murine splenocytes.

Emodin, one of the major compounds in the herb Reynoutria elliptica, is known to maintain immunosuppressive, anti-allergic, anti-cancer, and anti-inflammatory effects. In this study, we assessed the possibility of using emodin to induce apoptosis in stimulated immune cells in vitro. After treatment with emodin and concanavalin A (Con A), we observed DNA damage-induced apoptosis in splenocytes. Moreover, treatment with emodin and Con A increased the number of apoptotic splenocytes compared with untreated controls. Emodin also diminished the size of CD45R/B220+ cells, CD19+CD69+ cells, and cDC populations. These results indicate that emodin-induced apoptosis was involved in attenuating the immune activity promoted by DNA damage and in decreasing the number of CD45R/B220+ B cells and CD19+CD69+ activating B cells. This demonstration of emodin inducing apoptosis of Con A-stimulated immune cells indicates its potential utility as a therapy for diseases caused by abnormally activated immune cells.