Gingipains inactivate a cell surface ligand on Porphyromonas gingivalis that induces TLR2-and TLR4-independent signaling

Arginine-specific gingipain and lysine-specific gingipain are two major cysteine proteinases produced by Porphyromonas gingivalis. To clarify the role of gingipains in the interaction between P. gingivalis and the innate immune system, CHO reporter cells expressing TLR2 or TLR4 were stimulated with wildtype or gingipain-deficient P. gingivalis cells and activation of nuclear factor-kappaB in these cells was examined. While CHO/CD14 cells and 7.19 cells, an MD-2-defective mutant derived from CHO/CD14 cells, failed to respond to wild-type P. gingivalis, they responded to gingipain-deficient P. gingivalis. On the other hand, CHO/CD14/TLR2 cells responded to both wild-type and gingipain-deficient P. gingivalis. These results suggested that gingipains have no effects on TLR2-dependent signaling from P. gingivalis but have inhibitory effects on TLR2-and TLR4-independent signaling in CHO cells. Indeed, the activity of gingipain-deficient P. gingivalis to induce the activation of 7.19 cells was diminished after treatment of the bacterial cells with gingipains. We next partially purified bacterial cell components activating 7.19 cells from gingipain-deficient P. gingivalis. The activity of the partially purified components was diminished by treatment with heat or gingipains. It is also noteworthy that anti-CD14 mAb inhibited the activation of 7.19 cells induced by the partially purified components. These results indicated that the components of P. gingivalis that were able to induce TLR2-and TLR4-independent signaling were inactivated by gingipains before being recognized by CD14. The inactivation of the components would be helpful for P. gingivalis to escape from the innate immune system.     

TLR4 signaling induced TLR2 expression in the process of mimic cerebral ischemia/reperfusion <Emphasis Type="Italic">in vitro</Emphasis>

Both TLR4 and TLR2 participated in the mediation of the inflammatory injury in the process of partial cerebral ischemia/reperfusion. However, it still remains unclear whether a crosstalk exists between TLR2 and TLR4 in ischemic cerebral damage. In the present study, we investigated the effect of TLR4 signaling on TLR2 expression during mimic cerebral I/R in vitro. BV-2 cells were cultured and treated with ischemia/reperfusion, then transfected with the plasmid pEGFP-H1/TLR4-siRNA, the plasmid pEGFP-H1/control sequence-siRNA and the blank plasmid, respectively. Interestingly, the expression of TLR2 and TLR4 mRNA and protein, NF-κB p65 mRNA and supernatant TNF-α level were significantly higher in ischemia/reperfusion treated cells than those lack of ischemia/reperfusion treatment, and as compared with those in ischemia/reperfusion treated cells without transfection, no significant differences about the above mentioned gene and protein expression were found in the blank plasmid tranfected cells and the plasmid pEGFP-H1/control sequence-siRNA transfected cells respectively, while the expression levels in the plasmid pEGFP-H1/TLR4-siRNA transfected cells were significantly lower. Additionally, in order to determine the effects of pyrrolidinediethyldithiocarbamate (PDTC), an NF-κB inhibitor, on the TLR4-induced TLR2 expression in BV-2 cells treated with ischemia/reperfusion, it was found that TLR4 and TLR2 mRNA expressions in PDTC pretreated cells were significantly lower in comparison with normal saline pretreated cells and non-pretreated cells. The data suggested that TLR2 activation, signaled by TLR4 and regulated by NF-κB, might be directly involved play an important role in ischemia/reperfusion induced brain damage.     

Expression of functional TLR4 confers proinflammatory responsiveness to Trypanosoma cruzi glycoinositolphospholipids and higher resistance to infection with T. cruzi

TLRs function as pattern recognition receptors in mammals and play an essential role in the recognition of microbial components. We found that the injection of glycoinositolphospholipids (GIPLs) from Trypanosoma cruzi into the peritoneal cavity of mice induced neutrophil recruitment in a TLR4-dependent manner: the injection of GIPL in the TLR4-deficient strain of mice (C57BL/10ScCr) caused no inflammatory response. In contrast, in TLR2 knockout mice, neutrophil chemoattraction did not differ significantly from that seen in wild-type controls. GIPL-induced neutrophil attraction and MIP-2 production were also severely affected in TLR4-mutant C3H/HeJ mice. The role of TLR4 was confirmed in vitro by testing genetically engineered mutants derived from TLR2-deficient Chinese hamster ovary (CHO)-K1 fibroblasts that were transfected with CD14 (CHO/CD14). Wild-type CHO/CD14 cells express the hamster TLR4 molecule and the mutant line, in addition, expresses a nonfunctional form of MD-2. In comparison to wild-type cells, mutant CHO/CD14 cells failed to respond to GIPLs, indicating a necessity for a functional TLR4/MD-2 complex in GIPL-induced NF-kappaB activation. Finally, we found that TLR4-mutant mice were hypersusceptible to T. cruzi infection, as evidenced by a higher parasitemia and earlier mortality. These results demonstrate that natural resistance to T. cruzi is TLR4 dependent, most likely due to TLR4 recognition of their GIPLs.     

TLR4/P38/JNK信号通路在海马神经元凋亡中的作用

目的：探讨Toll样受体4（TLR4）/P38/JNK信号通路在海马神经元凋亡中的作用及其机制,为神经退行性疾病（ND）的发病机制与防治研究提供新的实验依据。方法：采用体外培养7 d的新生大鼠海马神经元,免疫荧光双标法鉴定海马神经元纯度。用TLR4配体脂多糖（LPS）或TLR4抗体预处理海马神经元,以激活或阻断TLR4的作用。实验1设正常对照组、LPS组及TLR4抗体+ LPS组;免疫荧光法检测P-P38,P-JNK的表达。实验2分为6组：正常对照组,LPS组,TLR4抗体+ LPS组,SB202190（抑制P38） + LPS组,SP600125（抑制JNK） + LPS组,PD98059（抑制ERK） + LPS组;分别用TLR4抗体、P38、JNK及ERK的抑制剂预处理海马神经元后再给以LPS刺激24 h,Western blot法检测Bcl-2,Bax,Active-caspase-3的表达变化;流式细胞术检测海马神经元凋亡率。结果：LPS组海马神经元P-P38、P-JNK的表达明显高于正常对照组（P < 0. 01）,TLR4抗体+ LPS组P-P38,P-JNK表达显著低于LPS组（P <0.01）。与正常对照组相比,LPS组海马神经元Bcl-2/Bax表达减少、Active-caspase-3表达增加,海马神经元凋亡率增加（P < 0.01）。而TLR4抗体+ LPS组、SB202190 + LPS组、SP600125 + LPS组Bcl-2/Bax显著高于LPS组、Active cas-pase-3显著低于LPS组（P < 0.01）,海马神经元凋亡率显著低于LPS组（P < 0. 05,P < 0. 01）。PD98059 + LPS组与LPS组海马神经元凋亡率无明显差异。结论：①海马神经元中有TLR4介导的P38/JNK信号通路。②海马神经元TLR4激活后,P-P38、P-JNK表达增加,使Bcl-2/Bax的比例降低和Active-caspase-3表达增加,从而促进海马神经元的凋亡。海马神经元凋亡过程中有TLR4介导的P38/JNK信号通路的参与。     

Lipopolysaccharides can protect mesenchymal stem cells (MSCs) from oxidative stress-induced apoptosis and enhance proliferation of MSCs via Toll-like receptor(TLR)-4 and PI3K/Akt

Apoptosis of implanted mesenchymal stem cells (MSCs) limits the efficiency of MSC therapy. Recent studies showed the ligands of Toll-like receptors (TLRs) could control the function of these cells. We have investigated the effect of lipopolysaccharides (LPS), a ligand of TLR4, on the survival of MSCs and explored the roles of TLR4 and PI3K/Akt. H₂O₂/serum deprivation(H₂O₂/SD) induced apoptosis of MSCs but LPS-preconditioning (1.0 μg/ml) protected MSCs from H₂O₂/SD-induced apoptosis and promoted their proliferation. Western blotting showed that 1.0 μg/ml LPS enhanced phosphorylation of both Akt at Ser 473 and nuclear factor-kappa B (NF-κB) p65 at Ser 536. However, the protective effects of LPS on survival were not observed in TLR4^lps-del MSCs. The results suggest appropriate treatments with LPS can protect MSCs from oxidative stress-induced apoptosis and improve the survival of MSCs via the TLR4 and PI3K/Akt pathway.     

慢性低O2高CO2对大鼠海马神经细胞TLR4和NFκB的影响

目的：探讨慢性低O2高CO2对大鼠海马神经细胞TLR4和NFκB的影响及作用。方法：采用慢性低O2高CO2肺动脉高压大鼠模型,30只大鼠随机分为正常对照组（NC）、低O2高CO2 2周组（2HH组）和低O2高CO2 4周组（4HH组）,免疫组织化学法检测海马CA1／3区细胞TLR4和NFκB的表达,TUNEL法检测海马细胞凋亡。结果：模型组大鼠海马CA1／3区TLR4蛋白的表达随着时间延长而显著,2HH组（CA1：0．1275±0．0242,CA3：0．1156±0．0376）,4HH组（CA1：0．1522±0．0187,CA3：0．1427±0．0453）,与NC组比较有显著性差异（P〈0．05,P〈0．01）。NC组大鼠海马CA1／3区可见NFκB／p65少量表达于胞浆,而模型组可见NFκB／p65在细胞核内不同程度表达,2HH组（CA1：0．1326±0．0324,CA3：0．1301±0．0112）,4HH组（CA1：0．1612±0．0428,CA3：0．1578±0．0365）,与NC组比较分别有显著性差异（P〈0．05,P〈0．01）。模型组大鼠海马CA1／3区细胞凋亡明显增多,与NC组比较分别有显著性差异（P〈0．01）,以4HH组为著。结论：TLR4和NFκB激活可能在慢性低O2高CO2大鼠海马神经细胞凋亡中有重要作用。     

TLR4 在四氯化碳诱导的肝硬化大鼠骨髓血窦内皮细胞的表达

目的：检测Toll样受体4(TLR4)在四氯化碳诱导的肝硬化大鼠骨髓血窦内皮细胞的表达,为进一步研究肝硬化时骨髓损伤 的发生机制提供实验依据。方法：选择Wistar大鼠给予腹腔注射CCl4,一周两次,建立肝硬化大鼠模型。分别于建模8 周和12 周 检测大鼠血浆内毒素的水平,免疫组化检测大鼠骨髓血窦内皮细胞上TLR4 的表达情况,RT-PCR 测定骨髓组织中TLR4 mRNA 的表达,分析TLR4 的表达与内毒素血症间的关系。结果：给予CCl4 8 周和12 周时,对照组大鼠血浆内毒素水平分别为(0.216± 0.024) Eu/ml 和(0.133± 0.022) Eu/ml,模型组大鼠血浆内毒素水平分别为(0.626± 0.021) Eu/ml 和(0.725± 0.031) Eu/ml,分别较对 照组显著升高,差异均有统计学意义(P<0.001);骨髓血窦内皮细胞TLR4蛋白表达及骨髓组织中TLR4 mRNA的表达均显著高于 对照组,差异均有统计学意义(P<0.05)。大鼠骨髓TLR4 蛋白和mRNA表达与血浆内毒素水平均呈显著正相关（r=0.841,0.803,P 均<0.001）。结论：CCl4 诱导的肝硬化大鼠骨髓血窦内皮细胞TLR4 表达升高,并伴随大鼠内毒素血症的发生,提示肝硬化时肠源 性内毒素血症可能参与了骨髓的造血功能的损害和病变。     

TRIF Modulates TLR5-dependent Responses by Inducing Proteolytic Degradation of TLR5

Proteolytic modification of pattern recognition receptors and their signaling adaptor molecules has recently emerged as an essential cellular event to regulate immune and inflammatory responses. Here we show that the TIR domain containing adaptor-inducing interferon-β (TRIF), an adaptor molecule mediating TLR3 signaling and MyD88-independent signaling of TLR4, plays an inhibitory role in TLR5-elicited responses by inducing proteolytic degradation of TLR5. TRIF overexpression in human embryonic kidney (HEK293) and human colonic epithelial (NCM460) cells abolishes the cellular protein level of TLR5, whereas it does not alter TLR5 mRNA level. Thus, TRIF overexpression dramatically suppresses flagellin/TLR5-deriven NFκB activation in NCM460 cells. TRIF-induced TLR5 protein degradation is completely inhibited in the presence of pan-caspase inhibitor (benzyloxycarbonyl-Val-Ala-Asp-fluoromethyl ketone), whereas several specific inhibitors against cathepsin B, reactive oxygen species, or ubiquitin-mediated proteasome activity fail to suppress this degradation. These results indicate that TRIF-induced caspase activity causes TLR5 protein degradation. In addition, we identify that the C terminus of TRIF and extracellular domain of TLR5 are required for TRIF-induced TLR5 degradation. Furthermore, TRIF-induced proteolytic degradation is extended to TLR3, TLR6, TLR7, TLR8, TLR9, and TLR10, whereas the cellular level of TLR1, TLR2, and TLR4 is not affected by TRIF overexpression. These results suggest that, in addition to mediating TLR3- or TLR4-induced signaling as an adaptor molecule, TRIF can participate in proteolytic modification of certain members of TLRs to modulate the functionality of TLRs at post-translational level. Collectively, our findings propose a potential inhibitory role of TRIF at least in regulating host-microbial communication via TLR5 in colonic epithelial cells.     

Differential expression of miR-142-3p protects cardiomyocytes from myocardial ischemia-reperfusion via TLR4/NFkB axis

Our research aims to explore the impact of miR-142 on myocardial apoptosis in the mouse ischemia and reperfusion (IR) model and investigate the underlying mechanisms at the molecular level. A considerable downregulation of miR-142 was observed in the cardiac area of mice post IR modeling. To understand the regulatory function of IR-induced miR-142 downregulation, the animals were categorized into four groups: IR model group; IR + agomir-142 group (IR mice treated with agomir-142); IR + antagomir-142 group (IR mice treated with antagomir-142); IR + agomir-142 + negative control (NC) group (IR mice processed with agomir-NC). The results indicated that agomir-142 upregulation was capable of shrinking IR damage-triggered infarction of the ventriculus sinister, strengthening myocardial function, and guarding against cardiomyocyte apoptosis, whereas further decreased miR-142 with antagomir-142 infection displayed negative influence of miR-142 against mice IR damage. In the cellular assay, miR-142 overexpression significantly improved proliferation and inhibited the apoptosis of neonatal rat cardiomyocytes (NRCs). Moreover, we found that miR-142 reduced the Bcl-2/Bax ratio and upregulated hydrogen peroxide (H₂O₂)-induced caspase-3 expression. Furthermore, transfection with an miR-142 mimic prevented the upregulation of TLR4/NFkB expression and activation in H₂O₂-treated NRCs. Our findings also revealed that miR-142 is linked to the 3'-untranslated area of the TLR4 gene. In addition, TLR4 overexpression considerably ablated the protective effects of miR-142 in terms of the cell viability of H₂O₂-treated NRCs. Taken together, miR-142 agomir injection in mice and miR-142 mimic transfection in NRCs plays a role in protecting the heart from IR damage and malfunction via the TLR4/NFkB axis both in vivo and in vitro.     

TLR4在四氯化碳诱导的肝硬化大鼠骨髓血窦内皮细胞的表达

目的：检测Toll样受体4（TLR4）在四氯化碳诱导的肝硬化大鼠骨髓血窦内皮细胞的表达,为进一步研究肝硬化时骨髓损伤的发生机制提供实验依据。方法：选择Wistar大鼠给予腹腔注射CCl4,一周两次,建立肝硬化大鼠模型。分别于建模8周和12周检测大鼠血浆内毒素的水平,免疫组化检测大鼠骨髓血窦内皮细胞上TLR4的表达情况,RT-PCR测定骨髓组织中TLR4mRNA的表达,分析TLR4的表达与内毒素血症间的关系。结果：给予CCl4 8周和12周时,对照组大鼠血浆内毒素水平分别为（0．216±0．024）Eu／ml和（0．133±0．022）Eu／ml,模型组大鼠血浆内毒素水平分别为（0．626±0．021）Eu／ml和（0．725±0．031）Eu／ml,分别较对照组显著升高,差异均有统计学意义（P〈0．001）;骨髓血窦内皮细胞TLR4蛋白表达及骨髓组织中TLR4mRNA的表达均显著高于对照组,差异均有统计学意义（P〈0．05）。大鼠骨髓TLR4蛋白和mRNA表达与血浆内毒素水平均呈显著正相关（r=0．841,0．803,P均〈0．001）。结论：CCl4诱导的肝硬化大鼠骨髓血窦内皮细胞TLR4表达升高,并伴随大鼠内毒素血症的发生,提示肝硬化时肠源性内毒素血症可能参与了骨髓的造血功能的损害和病变。     

过表达miR-31对结肠炎模型小鼠TLR4/NF-κB信号通路及凋亡蛋白的调控

目的: 探讨miR-31对DSS诱发结肠炎小鼠TLR4/NF-κB信号通路和凋亡相关蛋白的影响。方法: ①小鼠结肠炎实验:用1%葡聚糖硫酸钠(DSS)诱发小鼠溃疡性结肠炎(UC)。14只FVB非转基因小鼠随机分为control组(n=6),DSS组(n=8),16只FVB miR-31转基因小鼠随机分为miR-31过表达组(n=8),miR-31过表达+DSS 组(n=8),DSS溶于水后通过饮水给予小鼠。DSS组和miR-31+DSS组第一周饮用1%DSS水,第二周饮用正常无菌水,第三周饮用1%DSS水,如此5周后造模完成,之后留取小鼠的结肠组织,通过Western blot和IHC检测小鼠结肠组织NF-κB p65、TLR4、Bax、Bcl-2蛋白的表达;TUNEL检测小鼠结肠组织细胞凋亡。②细胞培养实验:在人结肠上皮细胞系HCT 116细胞中通过脂质体转染的方法转染miR-31 mimic和inhibitor,使miR-31过表达或敲低,每组均进行三次重复,48 h后收取细胞,通过Western blot检测NF-κB p65、TLR4蛋白的表达。结果: ①动物实验中,与control组相比,小鼠结肠组织中DSS组和miR-31过表达组NF-κB p65、TLR4蛋白表达水平和凋亡细胞指数均显著升高(P＜0.05或P＜0.01),Bcl-2/Bax比值显著降低(P＜0.05或P＜0.01);且与DSS组相比,miR-31+DSS组NF-κB p65、TLR4蛋白表达水平和凋亡细胞指数也显著升高(P＜0.01),Bcl-2/Bax比值显著降低(P＜0.01)。②细胞实验中,与control组相比, HCT 116细胞过表达miR-31组的NF-κB p65、TLR4蛋白表达水平均显著升高(P＜0.05或P＜0.01),敲低miR-31组的NF-κB p65、TLR4蛋白表达水平下降(P＜0.05)。结论: miR-31通过促进TLR4/NF-κB信号通路和介导肠上皮细胞凋亡促进结肠炎的发展。     

Role of TLR2- and TLR4-mediated signaling in Mycobacterium tuberculosis-induced macrophage death

Infection of macrophages with Mycobacterium tuberculosis (Mtb) induces cell death by apoptosis or necrosis. TLRs 2 and 4 recognition of mycobacterial ligands has been independently associated to apoptosis induction. To try to understand the particular contribution of these receptors to apoptotic or necrotic signaling upon infection with live Mtb H37Rv, we used macrophage lines derived from wild-type or TLR2-, TLR4-, and MyD88-deficient mouse strains. Mtb-infection triggered apoptosis depending on a TLR2/TLR4/MyD88/p38/ERK/PI-3K/NF-kB pathway; however, necrosis was favored in absence of TLR4 signaling independently of p38, ERK1/2, PI-3K or NF-κB activity. In conclusion, our results indicate that cooperation between TLR2- and TLR4-dependent mediated signals play a critical role in macrophage apoptosis induced by Mtb and the TLR4-mediated signaling has important role in the maintenance of the balance between apoptotic vs. necrotic cell death induced by macrophage infection with Mtb.     

Enhanced IL-10 production by TLR4- and TLR2-primed dendritic cells upon TLR restimulation

LPS tolerance has been investigated extensively in monocytes/macrophages. However, the LPS restimulation studies are not well documented in dendritic cells (DCs). In the present study, we investigated influences of TLR restimulation using murine bone marrow-derived DCs. Purified bone marrow-derived DCs (>98% CD11c+ B220-) were stimulated with TLR4 and TLR2 ligands for 24 h and then cultured with medium alone for 48 h as a resting interval (TLR4,2-primed DCs). The TLR4-MD2 expression was markedly reduced immediately after the TLR stimulation, but was restored following the resting interval. The TLR4,2-primed DCs exhibited significantly enhanced IL-10 production, but markedly diminished IL-12p40 production upon TLR4 restimulation compared with naive (unprimed) DCs. TLR4-mediated activation of p38 MAPK was markedly suppressed, whereas that of ERK1/2 was enhanced in the TLR4,2-primed DCs compared with naive DCs. Blocking the activation of ERK1/2 with U0126 reduced the enhanced IL-10 production by the TLR4,2-primed DCs upon the TLR4 restimulation. The U0126 showed no significant effects on the IL-12p40 production. Thus, the enhanced ERK1/2 activation appears to be, at least in part, responsible for the enhanced IL-10 production in the TLR4,2-primed DCs. In addition, TNFR-associated factor 3 expression was significantly up-regulated in the TLR4,2-primed DCs compared with that in naive DCs. We demonstrated in this study that DCs primed with TLR4 and TLR2 ligands and rested for 48 h showed enhanced IL-10 production upon TLR4 restimulation. The enhanced IL-10 production by the TLR4,2-primed DCs may be attributed to the altered balance of intracellular signaling pathways via p38 MAPK, ERK1/2, and TNFR-associated factor 3 upon TLR restimulation.     

Anti‐cell death engineering of CHO cells: Co‐overexpression of Bcl‐2 for apoptosis inhibition,Beclin‐1 for autophagy induction

Genetic engineering approaches to inhibit cell death in Chinese hamster ovary (CHO) cell cultures have been limited primarily to anti‐apoptosis engineering. Recently, autophagy has received attention as a new anti‐cell death engineering target in addition to apoptosis. In order to achieve a more efficient protection of cells from the stressful culture conditions, the simultaneous targeting of anti‐apoptosis and pro‐autophagy in CHO cells (DG44) was attempted by co‐overexpressing an anti‐apoptotic protein, Bcl‐2, and a key regulator of autophagy pathway, Beclin‐1, respectively. Co‐overexpression of Bcl‐2 and Beclin‐1 exhibited a longer culture period as well as higher viability during serum‐free suspension culture, compared with the control (without co‐overexpression of Bcl‐2 and Beclin‐1) and Bcl‐2 overexpression only. In addition to the efficient inhibition of apoptosis by Bcl‐2 overexpression, Beclin‐1 overexpression successfully induced the increase in the autophagic marker protein, LC3‐II, and autophagosome formation with the decrease in mTOR activity. Co‐immunoprecipitation and qRT‐PCR experiments revealed that the enforced expression of Beclin‐1 increased Ulk1 expression and level of free‐Beclin‐1 that did not bind to the Bcl‐2 despite the Bcl‐2 overexpression. Under other stressful culture conditions such as treatment with sodium butyrate and hyperosmolality, co‐overexpression of Bcl‐2 and Beclin‐1 also protected the cells from cell death more efficiently than Bcl‐2 overexpression only, implying the potential of autophagy induction. Taken together, the data obtained here provide the evidence that pro‐autophagy engineering together with anti‐apoptosis engineering yields a synergistic effect and successfully enhances the anti‐cell death engineering of CHO cells. Biotechnol. Bioeng. 2013; 110: 2195–2207. © 2013 Wiley Periodicals, Inc.     

The CD14 ligands lipoarabinomannan and lipopolysaccharide differ in their requirement for Toll-like receptors

Mammalian Toll-like receptor (TLR) proteins are new members of the IL-1 receptor family that participate in activation of cells by bacteria and bacterial products. Several recent reports indicate that TLR proteins mediate cellular activation by bacterial LPS via a signaling pathway that is largely shared by the type I IL-1 receptor. We previously showed that Chinese hamster ovary (CHO) fibroblasts engineered to express CD14 (CHO/CD14) were responsive to LPS, but not to a distinct CD14 ligand, mycobacterial lipoarabinomannan (LAM). These CHO/CD14 cells were subsequently found to possess a frame-shift mutation within the TLR2 gene which resulted in their inability to express functional TLR2 protein. Thus, we hypothesized that TLR2, but not TLR4, was necessary for LAM signaling. In this paper we show that CHO/CD14 cells engineered to express functional TLR2 protein acquired the ability to be activated by LAM. Similarly, overexpression of TLR2 in murine macrophages conferred enhanced LAM responsiveness. Together, our data demonstrate that the distinct CD14 ligands LAM and LPS utilize different TLR proteins to initiate intracellular signals. These findings suggest a novel receptor signaling paradigm in which the binding of distinct ligands is mediated by a common receptor chain, but cellular activation is initiated via distinct signal-transducing chains that confer ligand specificity. This paradigm contrasts with many cytokine receptor complexes in which receptor specificity is conferred by a unique ligand-binding chain but cellular activation is initiated via shared signal-transducing chains.     

TLR4 mutation and HSP60-induced cell death in adult mouse cardiac myocytes

Extracellular (ex) HSP60 is increasingly recognized as an agent of cell injury. Previously, we reported that low endotoxin exHSP60 causes cardiac myocyte apoptosis. Our findings supported a role for Toll-like receptor (TLR) 4 in HSP60 mediated apoptosis. To further investigate the involvement of TLR4 in cardiac injury, we studied adult cardiac myocytes from C3H/HeJ (HeJ) mice, which have a mutant, nonfunctional TLR4, and compared the results with parallel studies using wild-type (WT) mice. Nuclear factor κB (NFκB) activation is an early step downstream of TLR4. NFκB was activated 1 h after treatment with HSP60 in WT, but not HeJ mouse myocytes. ExHSP60 caused apoptosis in cardiac myocytes from WT mice, but not in myocytes from the HeJ mutants. To further elucidate the importance of exHSP60 in cardiac myocyte injury, both WT and HeJ mutant isolated mouse adult cardiac myocytes were exposed to hypoxia/reoxygenation. Anti-HSP60 antibody treatment reduced apoptosis in the WT group, but had no effect on the HeJ mutant myocytes. Unexpectedly, necrosis was also decreased in the HeJ mutants. Necrosis after hypoxia/reoxygenation in WT cardiac myocytes was mediated in part by TLR2 and TLR4 through rapid activation of PKCα, followed by increased expression of Nox2, and this was ameliorated by blocking antibodies to TLR2/4. These studies provide further evidence that TLR4 mediates exHSP60-associated apoptosis and that exHSP60 has an important role in cardiac myocyte injury, both apoptotic and necrotic.