Evaluation of serum‐free differentiation conditions for C2C12 myoblast cells assessed as to active tension generation capability

We have compared several serum‐free media for the differentiation of C2C12 myoblasts and assessed the extent of differentiation in several ways including as to active tension generation capability. C2C12 cells were allowed to differentiate in Dulbecco's modified Eagle's medium (DMEM) containing Ham's F‐12 (F‐12), AIM‐V (AIM), 0.2% Ultroser‐G in DMEM (Ult‐G), and 0.1% Sericin in DMEM (Sericin), compared with in DMEM supplemented with 2% horse serum (HS) or 2% calf serum (CS). C2C12 differentiation was assessed as the extent of myotube formation, glucose metabolism, protein expression, sarcomere formation, and active tension generation. All serum‐free media examined were capable of inducing myotube formation and the expression of muscle‐specific proteins. All serum‐free media except for F‐12 gave the sarcomere structure. Active tension generation was observed for cells that differentiated in AIM and Ult‐G, but the active tension generated by C2C12 cells that differentiated in Ult‐G was only ～25% in the case of myotubes that formed in HS. The addition of Ult‐G to the AIM resulted in improvement of the active tension generation capability, the active tension generated being ～3.4× compared to that in HS. The approach for assessing muscle cell differentiation presented in this study will be suitable for other studies that involve the differentiation of muscle cells. Biotechnol. Bioeng. 2010;107: 894–901. © 2010 Wiley Periodicals, Inc.     

Effects of heat stress in the leaf mitotic cell cycle and chromosomes of four wine-producing grapevine varieties

Grapevine varieties respond differentially to heat stress (HS). HS ultimately reduces the photosynthesis and respiratory performance. However, the HS effects in the leaf nuclei and mitotic cells of grapevine are barely known. This work intends to evaluate the HS effects in the leaf mitotic cell cycle and chromosomes of four wine-producing varieties: Touriga Franca (TF), Touriga Nacional (TN), Rabigato, and Viosinho. In vitro plants with 11 months were used in a stepwise acclimation and recovery (SAR) experimental setup comprising different phases: heat acclimation period (3 h—32 °C), extreme HS (1 h—42 °C), and two recovery periods (3 h—32 °C and 24 h—25 °C), and compared to control plants (maintained in vitro at 25 °C). At the end of each SAR phase, leaves were collected, fixed, and used for cell suspensions and chromosome preparations. Normal and abnormal interphase and mitotic cells were observed, scored, and statistically analyzed in all varieties and treatments (control and SAR phases). Different types of chromosomal anomalies in all mitotic phases, treatments, and varieties were found. In all varieties, the percentage of dividing cells with anomalies (%DCA) after extreme HS increased relative to control. TF and Viosinho were considered the most tolerant to HS. TF showed a gradual MI reduction from heat acclimation to HS and the lowest %DCA after HS and 24 h of recovery. Only Viosinho reached the control values after the long recovery period. Extrapolating these data to the field, we hypothesize that during consecutive hot summer days, the grapevine plants will not have time or capacity to recover from the mitotic anomalies caused by high temperatures.     

Heat shock response and ageing: mechanisms and applications

Ageing is associated with a decrease in the ability of cells to cope with environmental challenges. This is due partly to the attenuation of a primordial stress response, the so-called heat shock (HS) response, which induces the expression of heat shock proteins (HSPs), composed of chaperones and proteases. The attenuation of the HS response during ageing may be responsible for the accumulation of damaged proteins as well as abnormal regulation of cell death. Maintenance of the HS response by repeated mild heat stress causes anti-ageing hormetic effects on cells and organisms. Here, we describe the molecular mechanism and the state of the HS response as well as the role of specific HSPs during ageing, and discuss the possibility of hormetic modulation of ageing and longevity by repeated mild stress.     

A study of the effect of heat shock and metal ions on protein synthesis in Neurospora crassa cells

• 1.1. Neurospora cells were grown at 28°C for 14hr and subjected to heat shock (HS) at 48°C for 45 min. Protein synthesis profiles, monitored by labelling with [³⁵S]methionine and one and two-dimensional electrophoresis, revealed nine heat shock proteins (HSPs).
• 2.2. Crossed-immunoelectrophoresis revealed five polypeptides in the shocked cell extracts that were not detectable in normal cells.
• 3.3. Synthesis of HSPs occurred rapidly during the shock treatment and ceased upon transfer to normal conditions. One of the HSPs—~43 K in size—may be a developmentally-regulated protein.
• 4.4. Metal ions—cadmium, zinc, manganese, copper—did not elicit a stress response when used alone but appeared to modulate the heat shock response.

     

Heat shock induced proteins in plant cells

Tobacco (Nicotiana tabacum) and soybean (Glycine max) tissue culture cells were exposed to a heat shock and protein synthesis studied by SDS-polyacrylamide gel electrophoresis after labeling with radioactive amino acids. A new pattern of protein synthesis is observed in heat-shocked cells compared to that in control cells. About 12 protein bands, some newly appearing, others synthesized in greatly increased quantities in heat-shock cells, are seen. Several of the heat-shock proteins (HSPs) in both tobacco and soybean are similar in size. One of the HSPs in soybean (76K) shares peptide homology with its presumptive 25°C counterpart, indicating that the synthesis of at least some HSPs may not be due to activation of new genes. The optimum temperature for maximal induction of most HSPs is 39–40°C. Total protein synthesis decreases as heat-shock temperature is increased and is barely detectable at 45°C. The heat-shock response is maintained for a relatively short time in tobacco cells. After 3 hr at 39°C, a decrease is seen in the synthesis of the HSPs, and after 4 hr practically no HSPs are synthesized. After exposure to 39°C for 1 hr, followed by a return of tobacco cells to 26°C, recovery to the control pattern of synthesis requires greater than 6 hours. These results indicate that cells of flowering plants exhibit a heat-shock response similar to that observed in animal cells.     

Cytoprotective propensity of green tea polyphenols against citrinin-induced skeletal-myotube damage in C2C12 cells

The mycotoxin citrinin, is produced by several species of Penicillium, Aspergillus and Monascus, and is capable of inducing cytotoxicity, oxidative stress and apoptosis. The aim of the present study was to investigate the effect of citrinin in mouse skeletal muscle cells (C2C12) and to overcome the cellular adverse effects by supplementing green tea extract (GTE) rich in polyphenols. C2C12 myoblasts were differentiated to myotubes and were exposed to citrinin in a dose dependent manner (0–100 µM) for 24 h and IC₅₀ value was found to be 100 µM that resulted in decreased cell viability, increased LDH leakage and compromised membrane integrity. Mitochondrial membrane potential loss, increased accumulation of intracellular ROS and sub G1 phase of cell cycle was observed. To ameliorate the cytotoxic effects of CTN, C2C12 cells were pretreated with GTE (20, 40, 80 µg/ml) for 2 h followed by citrinin (100 µM) treatment for 24 h. GTE pretreatment combated citrinin-induced cytotoxicity and oxidative stress. GTE at 40 and 80 µg/ml significantly promoted cell survival and upregulated antioxidant enzyme activities (CAT, SOD, GPx) and endogenous antioxidant GSH, while the gene and protein expression levels were significantly restored through its effective antioxidant mechanism. Present study results suggested the antioxidant properties of GTE as a herbal source in ameliorating the citrinin-induced oxidative stress.     

Ethanol treatment triggers a heat shock-like response but no thermotolerance in soybean (Glycine max cv. Kaohsiung No.8) seedlings

Non‐lethal heat‐shock (HS) treatment has previously been shown to induce thermotolerance in soybean (Glycine max cv. Kaohsiung No.8) seedlings. This acquired thermotolerance correlates with the de novo synthesis of heat‐shock proteins (HSPs). Interestingly, we found that ethanol treatments also elicited HS‐like responses in aetiolated soybean seedlings at their normal growth temperature of 28 °C. Northern blot analyses revealed that the expression of HS genes hsp17.5, hsp70 and hsc 70 was induced by ethanol. Radioactive amino acids were preferentially incorporated into high molecular weight (HMW) HSPs rather than class I low molecular weight (LMW) HSPs during non‐lethal ethanol treatments. Immunoblot analysis confirmed that no accumulation of class I LMW HSPs occurred after non‐lethal ethanol treatment. Pre‐treatment with a non‐lethal dose of ethanol did not provide thermotolerance, as the aetiolated soybean seedlings could not survive a subsequent heat shock of 45 °C for 2 h. In contrast, non‐lethal HS pre‐treatment, 40 °C for 2 h, conferred tolerance on aetiolated soybean seedlings to otherwise lethal treatments of 7·5% ethanol for 8 h or 10% ethanol for 4 h. These results suggest that plant class I LMW HSPs may play important roles in providing both thermotolerance and ethanol tolerance.     

The protective effect of rosmarinic acid on hyperthermia-induced C2C12 muscle cells damage

High temperature will cause animal tissues or cells damage. Rosmarinic acid (RA) is a good antioxidant and health care product, but the roles of RA in muscle cells damage and the mechanisms which caused by high temperature is still unknown. In this study, the roles of RA on hyperthermia-induced apoptosis and damage of C2C12 muscle cells were investigated. C2C12 cells were cultured in medium with different concentration (0, 25, 50, 100 µM) RA and treated in 42 °C high temperature to induce cellular apoptosis and damage. Then, these cells were analyzed effect of different dose of RA on cells apoptosis and damage. The results indicated that RA has protective effect on heat-stress induced cellular damage, and the cells have the higher cell viability at the dose of 50 µM RA by MTT assay. Hochest33342/PI double staining showed that the cellular apoptosis of C2C12 cells were decreased in the presence of selected 50 µM RA. Malondialdehyde formation and reactive oxygen species levels were also decreased significantly, but cellular superoxide dismutase activity was increased significantly in the presence of RA even in the condition of 42 °C. Meanwhile, Caspase-3 mRNA expression, Caspase-3 activity, and Bax/Bcl-2 ratio were reduced significantly, but the mRNA expression of Hsp72 was increased significantly in those hyperthermia-induced C2C12 cells in the presence of 50 µM RA. Taken together, the results at least discovered that RA has protective effects on hyperthermia-induced cellular apoptosis and damage of muscle cells by change the expression of stress-genes and increasing intracellular antioxidant capability.     

Effect of epigallocatechin gallate on growth performance and antioxidant capacity in heat-stressed broilers

This study investigated the effects of epigallocatechin gallate (EGCG) on the growth performance and antioxidant capacity of 35-d-old broilers exposed to heat stress. Broilers, 14 d of age, were divided into four groups with six replicates per group (eight chickens/replicate). Thermoneutral group (Group TN) was fed the basal diet and maintained at 28°C for 24 h/d. The heat-stressed groups were housed at 35°C for 12 h/d and 28°C for 12 h/d and fed the basal diet supplemented with EGCG at 0, 300 and 600 mg/kg diet (Groups HS0, HS 300 and HS600, respectively). Compared with Group TN, heat-stressed groups showed significantly reduced gain, feed intake and serum total protein and glucose levels; inhibited serum alkaline phosphatase activities; and increased serum levels of uric acid, cholesterol and triglycerides and the activity of serum creatine kinase, lactate dehydrogenase and aspartate aminotransferase (p < 0.05). Compared with Group HS0, Group HS600 exhibited an increased gain and feed intake; and normalised blood parameters and enzyme activities. Compared with Group TN, the expression of antioxidant-related liver proteins was decreased in Group HS0 and increased in Groups HS300 and HS600 (p < 0.05). The results suggest that EGCG can improve the growth performance and alleviate the oxidant damage by modulating the antioxidant properties of broilers.     

induction of heat shock response and acquisition of thermotolerance in callus cultures of Gerbera jamesonii

Summary The heat shock (HS) response in callus cultures of the ornamental plant Gerbera jamesonii H. Bolus var. hybrida was analyzed. A HS at 35° C or 40° C for 4 h induced (a) the synthesis of several heat shock proteins (HSPs), especially in the small molecular weight range and some spots corresponding to HSP70 components, and (b) an increase in the steady state levels of some specific mRNAs. At the nonstressing temperature (26° C), a sustainable level of translation for HSP70 was indeed carried out, as confirmed by immunological analysis with a monoclonal antibody against cotton HSP70. The steady state levels of mRNAs measured before and after a HS by Northern hybridization showed an increase with the heterologous probes HSP17.4, HSP17.6, and HSP21, whereas the probes HSC70 and HSP70 did not show any difference between the levels of control and HS-mRNAs. A pretreatment at 35° C, which induced a set of HSPs in the callus cultures, decreased the cell damage upon exposure to a temperature of 45° C as determined either with a regrowth test or by the tetrazolium reduction assay. Typically, as with the whole plants, callus of Gerbera jamesonii possessed the ability to respond to HS both by inducing HSPs and by developing an acquired thermotolerance.     

Solute Leakage in Soybean Seedlings under Various Heat Shock Regimes

The leakage of solute from intact seedlings during incubationunder various heat shock (HS) regimes was studied. ContinuousHS at 40?C did not induce leakage of amino acids, soluble sugarsand electrolytes into the incubation medium, when compared withcontrol incubation at 28?C. Continuous HS at 45?C (lethal treatment)caused leakage to increase continuously and linearly duringa 5-h treatment period. However, brief HS at 47.5?C, (lethaltreatment), unlike continuous HS at 45?C, induced leakage ata slower rate which reached a plateau within 2 to 3 h at 28?C.Preincubation for 2 h at 40?C completely prevented the leakagecaused by the brief HS at 47.5?C, but not that caused by continuous45?C HS. The amount of leakage during 2 h of incubation at 45?Cwas reduced to half by 30 min preincubation at 40?C and wasreduced to a minimal level by 1-h preincubation. Greater reductionof leakage at 45?C HS was observed when an additional 4 h ofincubation at 28?C immediately followed the 40?C preincubation.These results and previous findings (Lin et al. 1984) indicatethat the synthesis and accumulation of HS proteins (HSPs) areimportant for preventing HS-induced leakage from the cells.One of the HSPs, 15 kD in size appeared to be associated withthe plasma membrane. (Received February 12, 1985; Accepted August 30, 1985)     

Characterization of the heat shock response in cultured sugarcane cells : I. Physiology of the heat shock response and heat shock protein synthesis

Effect of heat shock on the growth of cultured sugarcane cells (Saccharum officinarum L.) was measured. Heat shock (HS) treatment at 36 to 38°C (2 hours) induced the development of maximum thermotolerance to otherwise nonpermissive heat stress at 54°C (7 minutes). Optimum thermotolerance was observed 8 hours after heat shock. Development of thermotolerance was initiated by treatments as short as 30 minutes at 36°C. Temperatures below 36°C or above 40°C failed to induce maximum thermotolerance. In vivo labeling revealed that HS at 32 to 34°C induced several high molecular mass heat shock proteins (HSPs). A complex of 18 kilodalton HSPs required at least 36°C treatment for induction. The majority of the HSPs began to accumulate within 10 minutes, whereas the synthesis of low molecular mass peptides in the 18 kilodalton range became evident 30 minutes after initiation of HS. HS above 38°C resulted in progressively decreased HSP synthesis with inhibition first observed for HSPs larger than 50 kilodaltons. Analysis of two-dimensional gels revealed a complex pattern of label incorporation including the synthesis of four major HSPs in the 18 kilodalton range and continued synthesis of constitutive proteins during HS.     

Heparan sulfate controls skeletal muscle differentiation and motor functions

BackgroundHeparan sulfate (HS) is a sulfated linear polysaccharide on cell surfaces that plays an important role in physiological processes. HS is present in skeletal muscles but its detailed role in this tissue remains unclear.MethodsWe examined the role of HS in the differentiation of C2C12 cells, a mouse myoblast cell line. We also phenotyped the impact of HS deletion in mouse skeletal muscles on their functions by using Cre-loxP system.ResultsCRISPR-Cas9-dependent HS deletion or pharmacological removal of HS dramatically impaired myoblast differentiation of C2C12 cells. To confirm the importance of HS in vivo, we deleted Ext1, which encodes an enzyme essential for HS biosynthesis, specifically in the mouse skeletal muscles (referred to as mExt1CKO mice). Treadmill and wire hang tests demonstrated that mExt1CKO mice exhibited muscle weakness. The contraction of isolated soleus muscles from mExt1CKO mice was also impaired. Morphological examination of mExt1CKO muscle tissue under light and electron microscopes revealed smaller cross sectional areas and thinner myofibrils. Finally, a model of muscle regeneration following BaCl₂ injection into the tibialis anterior muscle of mice demonstrated that mExt1CKO mice had reduced expression of myosin heavy chain and an increased number of centronucleated cells. This indicates that muscle regeneration after injury was attenuated in the absence of HS expression in muscle cells.SignificanceThese results demonstrate that HS plays an important role in skeletal muscle function by promoting differentiation.     

Delta 12-prostaglandin J2 mimics heat shock in inducing cell cycle arrest at G1 phase

Using a human neuroblastoma cell line GOTO, the effects of delta 12-prostaglandin (PG) J2 on the modulation of cell cycle progression and protein synthesis were examined in comparison with those caused by heat shock (HS). delta 12-PGJ2 induced G1 arrest, the peak of which was obtained at 24 h and continued for 72 h. HS was found to induce G1 arrest earlier than delta 12-PGJ2. Furthermore, sequential HS could maintain G1 arrest. delta 12-PGJ2 induced the synthesis of several heat shock proteins (HSPs) in a manner similar to HS. Using immunoblot analysis, HSP72 was detected prior to inducing G1 arrest and accumulated during the subsequent 72h. The content of HSP72 induced by HS also correlated well with the induction, release, and maintenance of G1 arrest. In addition, both delta 12-PGJ2 and HS induced HSP72 mRNA and simultaneously suppressed N-myc mRNA expression. These results suggest that delta 12-PGJ2 and HS regulate cell cycle progression of GOTO cells via similar mechanisms.     

Cortisol Effect on Heat Shock Proteins in the C2C12 and 3T3-L1 Cells

The present study was carried out to understand the effect of cortisol on heat shock protein system (Hsps) in the C2C12 and 3T3-L1 cells under co-culture system. Cells were co-cultured by using Transwell inserts with a 0.4-μm porous membrane to separate C2C12 and 3T3-L1 cells. Each cell type was grown independently on the Transwell plates. After cell differentiation, inserts containing 3T3-L1 cells were transferred to C2C12 plates and inserts containing C2C12 cells transferred to 3T3-L1 plates. Ten micrograms per microliter of cortisol was added to the medium. Following 72 h of treatment, the cells in the lower wells were harvested for analysis. Heat shock proteins (Hsps) such as Hsp27, Hsp70, and Hsp90 were selected for the analysis. The qRT-PCR results showed the significant increase in the mRNA expression of as Hsp27, Hsp70, and Hsp90. In addition, confocal microscopical investigation showed the cortisol treatment increases Hsps expressions in the mono and co-cultured C2C12 and 3T3-L1 cells. From the results, we concluded that the cortisol increases Hsps expression in the co-cultured C2C12 and 3T3-L1 cells, which is differed from one-dimensional mono-cultured C2C12 and 3T3-L1 cells.     

Complement C4 induces regulatory T cells differentiation through dendritic cell in systemic lupus erythematosus

Background

Systemic lupus erythematosus (SLE) is a prototypic systemic autoimmune disease. Complement component 4 (C4) has be proved to play a role in pathogenesis of SLE. In the present study, we investigated the effect of C4 on T cells differentiation.

Methods

Thirty SLE patients were included in this study. CD4+ T cells were isolated from healthy subjects, and dendritic cells (DCs) were isolated from healthy subjects or SLE patients. C4 was supplemented to co-incubate with T cells and DCs.

Results

Serum C4 concentration was positively correlated with regulatory T cell (Treg) percentage (R² = 0.5907, p < 0.001) and TGFβ concentration (R² = 0.5641, p < 0.001) in SLE patients. Different concentrations of C4 had no effect on T cells differentiation. Co-incubated T cells with DCs and C4 for 7 days, the Treg percentage and TGF-β concentration were significantly elevated. In addition, pre-treated DCs (from healthy subjects or SLE patients) with C4 and then co-incubated with T cells, the increases of Treg percentage and TGF-β concentration were also observed.

Conclusion

C4 takes part in T cells differentiation to Treg cells via DCs.

     

Potential role of heat shock proteins in neural differentiation of murine embryonal carcinoma stem cells (P19)

HSPs (heat shock proteins) have been recognized to maintain cellular homoeostasis during changes in microenvironment. The present study aimed to investigate the HSPs expression pattern in hierarchical neural differentiation stages from mouse embryonal carcinoma stem cells (P19) and its role in heat stressed exposed cells. For induction of HSPs, cells were heated at 42°C for 30 min and recovered at 37°C in different time points. For neural differentiation, EBs (embryoid bodies) were formed by plating P19 cells in bacterial dishes in the presence of 1 mM RA (retinoic acid) and 5% FBS (fetal bovine serum). Then, on the sixth day, EBs were trypsinized and plated in differentiation medium containing neurobasal medium, B27, N2 and 5% FBS and for an extra 4 days. The expression of HSPs and neural cell markers were evaluated by Western blot, flow cytometry and immunocytochemistry in different stages. Our results indicate that HSC (heat shock constant)70 and HSP60 expressions decreased following RA treatment, EB formation and in mature neural cells derived from heat-stressed single cells and not heat-treated EBs. While the level of HSP90 increased six times following maturation process, HSP25 was expressed constantly during neural differentiation; however, its level was enhanced with heat stress. Accordingly, heat shock 12 h before the initiation of differentiation did not affect the expression of neuroectodermal and neural markers, nestin and β-tubulin III, respectively. However, both markers increased when heat shock was induced after treatment and when EBs were formed. In conclusion, our results raise the possibility that HSPs could regulate cell differentiation and proliferation under both physiological and pathological conditions.     

Overexpression of cytosolic sialidase Neu2 induces myoblast differentiation in C2C12 cells

Cytosolic sialidase Neu2 has been implicated in myoblast differentiation. Here we observed a significant upregulation of Neu2 expression during differentiation of murine C2C12 myoblasts. This was evidenced both as an increase in Neu2 mRNA steady-state levels and in the cytosolic sialidase enzymatic activity. To understand the biological significance of Neu2 upregulation in myoblast differentiation, C2C12 cells were stably transfected with the rat cytosolic sialidase Neu2 cDNA. Neu2 overexpressing clones were characterized by a marked decrement of cell proliferation and by the capacity to undergo spontaneous myoblast differentiation also when maintained under standard growth conditions. This was evidenced by the formation of myogenin-positive myotubes and by a significant decrease in the nuclear levels of cyclin D1 protein. No differentiation was on the contrary observed in parental and mock-transfected cells under the same experimental conditions. The results indicate that Neu2 upregulation per se is sufficient to trigger myoblast differentiation in C2C12 cells.     

Evidence for the participation of nerve growth factor and its low-affinity receptor (p75NTR) in the regulation of the myogenic program

We have studied expression and function of neurotrophins and their receptors during myogenic differentiation of C2C12 cells, a clonal cell line derived from mouse muscle that is capable of in vitro differentiation. The genes coding for nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF) and their common low-affinity receptor p75^{neurotrophin receptor} (p75^NTR) were shown to be expressed in C2C12 myoblasts and downregulated during myogenic differentiation and fusion into myotubes. Cocultures with dorsal root ganglia from day 8 chick embryos revealed neurite-promoting activities of C2C12 cells that ceased with myogenic differentiation. These data suggest a temporal and developmental window for the effect of myogenic cell-derived neurotrophins on neuronal as well as on myogenic cell populations. NGF was shown to increase DNA synthesis and cell growth of C2C12 myoblasts and to enhance myogenic differentiation in this cell line. We present evidence that NGF-mediated processes take place at stages preceding myogenic differentiation. Enhanced muscle differentiation was also seen in p75^NTR-overexpressing C2C12 myoblasts which maintained high levels of receptors but ceased to produce NGF during differentiation. In contrast, when exogenous NGF was present at the onset of myogenic differentiation of receptor-overexpressing cells, muscle cell development was strongly repressed. This indicates that downregulation of p75^NTR is necessary for guiding myogenic cells towards terminal differentiation. Since none of the trk high-affinity neurotrophin receptors could be demonstrated in C2C12 cells, we conclude that NGF mediates its nonneurotrophic effect via its low-affinity receptor in an autocrine fashion. J. Cell. Physiol. 176:10–21, 1998. © 1998 Wiley-Liss, Inc.