TNF Receptor (肿瘤坏死因子)

Tumor Necrosis Factor Receptor; TNFR

肿瘤坏死因子 (TNF) 是细胞凋亡以及炎症和免疫的主要介质，并且与多种人类疾病的发病机制有关，包括败血症、糖尿病、癌症、骨质疏松症、多发性硬化症、类风湿性关节炎和炎症性肠病。

TNF-α 是一种 17 kDa 蛋白质，由 157 个氨基酸组成，在溶液中为同源三聚体。在人类中，该基因位于 6 号染色体上。其生物活性主要受可溶性 TNF-α 结合受体的调节。TNF-α 主要由活化的巨噬细胞、T 淋巴细胞和自然杀伤细胞产生。已知多种其他细胞的表达较低，包括成纤维细胞、平滑肌细胞和肿瘤细胞。在细胞中，TNF-α 合成为 pro-TNF (26 kDa)，它与膜结合，在 TNF 转换酶 (TACE) 裂解其 pro 结构域后释放。

许多 TNF 诱导的细胞反应是由两种 TNF 受体 TNF-R1 和 TNF-R2 中的任一种介导的，这两种受体都属于 TNF 受体超家族。在 TNF 治疗后，转录因子 NF-κB 和 MAP 激酶（包括 ERK、p38 和 JNK）在大多数类型的细胞中被激活，在某些情况下，也可能诱导细胞凋亡或坏死。然而，诱导细胞凋亡或坏死主要是通过 TNFR1 实现的，TNFR1 也称为死亡受体。NF-κB 和 MAPK 的激活在多种细胞因子和免疫调节蛋白的诱导中起着重要作用，并且对许多炎症反应至关重要。

Tumor necrosis factor (TNF) is a major mediator of apoptosis as well as inflammation and immunity, and it has been implicated in the pathogenesis of a wide spectrum of human diseases, including sepsis, diabetes, cancer, osteoporosis, multiple sclerosis, rheumatoid arthritis, and inflammatory bowel diseases.

TNF-α is a 17-kDa protein consisting of 157 amino acids that is a homotrimer in solution. In humans, the gene is mapped to chromosome 6. Its bioactivity is mainly regulated by soluble TNF-α–binding receptors. TNF-α is mainly produced by activated macrophages, T lymphocytes, and natural killer cells. Lower expression is known for a variety of other cells, including fibroblasts, smooth muscle cells, and tumor cells. In cells, TNF-α is synthesized as pro-TNF (26 kDa), which is membrane-bound and is released upon cleavage of its pro domain by TNF-converting enzyme (TACE).

Many of the TNF-induced cellular responses are mediated by either one of the two TNF receptors, TNF-R1 and TNF-R2, both of which belong to the TNF receptor super-family. In response to TNF treatment, the transcription factor NF-κB and MAP kinases, including ERK, p38 and JNK, are activated in most types of cells and, in some cases, apoptosis or necrosis could also be induced. However, induction of apoptosis or necrosis is mainly achieved through TNFR1, which is also known as a death receptor. Activation of the NF-κB and MAPKs plays an important role in the induction of many cytokines and immune-regulatory proteins and is pivotal for many inflammatory responses.

TNF Receptor 亚型特异性产品:

TNF Receptor Isoform Comparison

TNF Receptor 相关产品 (757)
重组蛋白 (283)
抗体 (23)
TNF Receptor 信号通路
TNF Receptor Isoform Comparison

By Effects:	Ligand (3) Control (4) 抑制剂 (549) 激动剂 (26) 拮抗剂 (20) 激活剂 (35) 调节剂 (7) 诱导剂 (8)

Cat. No.	Product Name	Effect	Purity	Chemical Structure

HY-N0509

Astilbin 落新妇苷	Inhibitor	99.97%
Astilbin 是一种黄酮类化合物，可增强 NRF2 活化。Astilbin 还抑制 TNF-α 表达和 NF-κB 活化。

HY-P990008

Atrosab	Antagonist	99.94%
Atrosab 是一种人源化 IgG1 拮抗性抗 TNFR1 抗体。Atrosab 抑制 TNF 介导的细胞凋亡 (Apoptosis) 以及 IL-6 和 IL-8 的产生。Atrosab 可以减轻神经功能缺陷。Atrosab 可用于炎症性疾病的研究。建议同种型对照是 Human IgG1 kappa，Isotype Control (HY-P99001)。

HY-N0297

Sinensetin 甲基化黄酮	Inhibitor	99.62%
Sinensetin是一个能够在水果中发现的甲基化黄酮，有很强的抗血管和抗炎症的能力。

HY-P99151

Brentuximab	Inhibitor	99.64%
Brentuximab 是一种抗 CD30 单克隆抗体。Brentuximab 与单甲基 auristatin E (MMAE) (HY-15162) 偶联生成的抗体-偶联药物 Brentuximab vedotin (HY-P99107) 可以诱导原发性积液淋巴瘤细胞凋亡 (apoptosis)。Brentuximab vedotin 具有抗肿瘤活性，对人类 CD30+ 癌细胞的 IC₅₀ 为 10 nM。

HY-134471

TNF-α-IN-2	Inhibitor	99.2%
TNF-α-IN-2 是一种有效和具有口服活性的肿瘤坏死因子 α (TNFα) 抑制剂，在 HTRF 分析中的 IC₅₀ 值为 25 nM。结合时，TNF-α-IN-2 会使 TNFα 三聚体变形，当三聚体与 TNFR1 结合时会导致异常信号传导。TNF-α-IN-2 可用于类风湿关节炎的研究。

HY-N0722

Neochlorogenic acid 新绿原酸	Inhibitor	99.77%
Neochlorogenic acid 是在干果和其他植物中发现的一种天然多酚化合物。Neochlorogenic acid 抑制 TNF-α 和 IL-1β 产生。 Neochlorogenic acid 抑制 iNOS 和 COX-2 蛋白表达。Neochlorogenic acid 还抑制磷酸化的 NF-κB p65 和 p38 MAPK 活化。

HY-P99568

Telitacicept 泰它西普	Inhibitor	99.30%
Telitacicept (RC18) 是一种完全人 TACI-Fc 融合蛋白。Telitacicept 是一种双重 B 淋巴细胞刺激剂 (BLyS)/APRIL (一种增殖诱导配体) 抑制剂，可有效阻断 B 淋巴细胞的增殖。Telitacicept 可用于 B 细胞自身免疫性疾病的研究。(Note: 下方产品规格仅指示 Telitacicept 有效含量，该产品成分比例为 Telitacicept : 辅料 = 1: 0.5-1: 0.8。)

HY-N0405

Orientin 荭草苷	Inhibitor	99.73%
Orientin 是一种神经保护剂，具有抗炎、抗氧化、抗肿瘤和心脏保护作用。Orientin 抑制 IL-6、IL-1β 和 TNF-α 的水平。Orientin 增加 IL-10 的水平。Orientin 通过抑制 TLR4 和 NF-kappa b 的信号通路发挥神经保护作用。Orientin 可用于研究神经性疼痛。

HY-N0633

Muscone 麝香酮	Inhibitor	98.0%
Muscone 是中药麝香的主要活性单体。Muscone 抑制 NF-κB 和 NLRP3 炎性小体的活化。Muscone 显着降低炎性细胞因子 (IL-1β，TNF-α 和 IL-6) 水平，并最终改善心脏功能和存活率。

HY-122663A

BIO8898	Inhibitor	99.88%
BIO8898 是一种有效的 CD40-CD154 抑制剂。BIO8898 抑制可溶性 CD40L 与 CD40-Ig 的结合，IC₅₀ 值为 25 µM。BIO8898 抑制 CD40L 诱导的细胞凋亡(apoptosis)。

HY-P99339

Tebentafusp		99.90%
Tebentafusp (IMCgp100) 是一种双特异性融合蛋白，靶向 gp100 (一种黑色素瘤相关抗原)。Tebentafusp 通过高亲和力 T 细胞受体 (TCR) 结合域和抗 CD3 T 细胞接合域引导 T 细胞杀死表达 gp100 的肿瘤细胞。Tebentafusp 诱导炎性细胞因子和细胞溶解蛋白的产生，导致肿瘤细胞的直接裂解。

HY-P99111

Golimumab 戈利木单抗	Inhibitor	99.71%
Golimumab (CNTO-148) 是一种有效的人 IgG1 TNFα 拮抗剂单克隆抗体。Golimumab 具有抗炎活性，并抑制 IL-6 和 IL-1β 的产生。Golimumab 通过靶向和中和 TNF 来防止炎症发生和软骨或骨骼的破坏。Golimumab 具有抗癌活性并诱导细胞凋亡 (apoptosis)。Golimumab 可用于类风湿关节炎、克罗恩病和癌症研究。

HY-P9953

Certolizumab pegol 培塞利珠单抗	Inhibitor	99.30%
Certolizumab pegol (Certolizumab) 是重组、聚乙二醇化、抗原结合片段的人源化单克隆抗体，可选择性靶向和中和肿瘤坏死因子-α (TNF-α)。 Certolizumab pegol 可用于类风湿关节炎和克罗恩病的研究。

HY-N6796

Manumycin A 手霉素A	Inhibitor	99.27%
Manumycin A 是一种聚酮类抗生素和硫氧还蛋白还原酶-1 (TrxR-1) 抑制剂。Manumycin A 可以通过 LC3 抑制乳腺癌细胞生长并发挥抗肿瘤活性。Manumycin A 可以下调 TNF α 刺激的人单核细胞中促炎细胞因子的释放，具有潜在抗炎活性。Manumycin A 可以抑制去势抵抗性前列腺癌细胞中的 Ras/Raf/ERK1/2 信号和 hnRNP H1 来抑制外泌体生物发生和分泌。

HY-N0528

Linarin 蒙花苷		98.02%
Linarin (Buddleoside) 是一种口服有效的和选择性的乙酰胆碱酯酶 (AChE) 抑制剂。Linarin 具有抗炎抗氧化、助眠镇静、促成骨分化、抗肿瘤和抗菌、抗病毒等多种活性。Linarin 可用于神经系统、骨质疏松和癌症等疾病的研究。

HY-P99909

Elranatamab 埃纳妥单抗		98.74%
Elranatamab (PF-06863135) 是一种抗 CD3E/TNFRSF17 的人源 IgG2κ 单克隆抗体。Elranatamab 的同型对照产品：Human IgG2 kappa, Isotype Control (HY-P99002)。

HY-12220

MM-102	Inhibitor	99.39%
MM-102 (HMTase Inhibitor IX) 是一种具有细胞渗透性并紧密结合的 MLL1-WDR5 相互作用抑制剂 (IC₅₀=2.4 nM)。MM-102 能特异性抑制含有 MLL1 融合蛋白的白血病细胞的生长和诱导细胞凋亡 (apoptosis)，并减轻缺血再灌注损伤小鼠肾脏纤维化和炎症反应。此外，MM-102 也作为 H3K4 组蛋白甲基转移酶抑制剂来改善猪体细胞核移植 (SCNT) 胚胎发育。

HY-120323

DRI-C21045	Inhibitor	98.11%
DRI-C21045 (compound 10) 是一种有效和选择性的 CD40-CD40L 共刺激蛋白-蛋白质相互作用 (PPI) 抑制剂，IC₅₀ 为 0.17 μM。DRI-C21045 显示对 CD40L 诱导的 NF-κB 活化和 B 细胞增殖的浓度依赖性抑制，IC₅₀ 分别为 17.1 μM 和 4.5 μM。

HY-N0472

Geraniin	Inhibitor	99.84%
Geraniin 是具有抗肿瘤、抗炎、抗高血糖活性的、肿瘤坏死因子α (TNF-α) 的释放抑制剂，其 IC₅₀ 值为 43 μM。

HY-113556

Sappanone A	Inhibitor	99.87%
Sappanone A 是一种从 sappan L 中发现的具有口服活性的同型异黄烷酮。Sappanone A 是一种 PDE4 和 NF-κB 抑制剂，具有抗炎和抗氧化作用。Sappanone A 通过激活 Nrf2 通路诱导 HO-1 表达。Sappanone A 还能抑制 RANKL 诱导的破骨细胞生成。Sappanone A 在炎症相关和心血管疾病的研究中具有很大的潜力。

TNF RIPK1 TRADD TRAF2/5 cIAP1/2 TNFR1 LUBAC TAB2 TAB3 TAK1 IKKβ NEMO IKKα RIPK1 CYLD RIPK1 RIPK1 TRADD FADD FADD Pro-caspase 8 Pro-caspase 8 Pro-caspase 8 Pro-caspase 8 Pro-caspase 8 Pro-caspase 8 Pro-caspase 8 Pro-caspase 8 Pro-caspase 8 Active
Caspase 8 Caspase 3/7 RIPK1 or
RIPK3 RIPK1 RIPK3 Apoptosis FADD RIPK1 RIPK3 FADD FLIP_L FLIP_L RIPK1 or
RIPK3 FLIP_L or FLIP_S FADD FADD RIPK1 RIPK3 RIPK3 RIPK3 MLKL MLKL MLKL AP1 TRAF1/2 cIAP1/2 MKK3 MKK1/7 p38 JNK CYLD IκB p50 p65 IκB NF-κB FLIP Bcl-X_L TNF TNFR2

Download TNF Receptor Signaling Pathway Map.

Following the binding of TNF to TNF receptors, TNFR1 binds to TRADD, which recruits RIPK1, TRAF2/5 and cIAP1/2 to form TNFR1 signaling complex I; TNFR2 binds to TRAF1/2 directly to recruit cIAP1/2. Both cIAP1 and cIAP2 are E3 ubiquitin ligases that add K63 linked polyubiquitin chains to RIPK1 and other components of the signaling complex. The ubiquitin ligase activity of the cIAPs is needed to recruit the LUBAC, which adds M1 linked linear polyubiquitin chains to RIPK1. K63 polyubiquitylated RIPK1 recruits TAB2, TAB3 and TAK1, which activate signaling mediated by JNK and p38, as well as the IκB kinase complex. The IKK complex then activates NF-κB signaling, which leads to the transcription of anti-apoptotic factors-such as FLIP and Bcl-XL-that promote cell survival.

The formation of TNFR1 complex IIa and complex IIb depends on non-ubiquitylated RIPK1. For the formation of complex IIa, ubiquitylated RIPK1 in complex I is deubiquitylated by CYLD. This deubiquitylated RIPK1 dissociates from the membrane-bound complex and moves into the cytosol, where it interacts with TRADD, FADD, Pro-caspase 8 and FLIPL to form complex IIa. By contrast, complex IIb is formed when the RIPK1 in complex I is not ubiquitylated owing to conditions that have resulted in the depletion of cIAPs, which normally ubiquitylate RIPK1. This non-ubiquitylated RIPK1 dissociates from complex I, moves into the cytosol, and assembles with FADD, Pro-caspase 8, FLIPL and RIPK3 (but not TRADD) to form complex IIb. For either complex IIa or complex IIb to prevent necroptosis, both RIPK1 and RIPK3 must be inactivated by the cleavage activity of the Pro-caspase 8-FLIPL heterodimer or fully activated caspase 8. The Pro-caspase 8 homodimer generates active Caspase 8, which is released from complex IIa and complex IIb. This active Caspase 8 then carries out cleavage reactions to activate downstream executioner caspases and thus induce classical apoptosis.

Formation of the complex IIc (necrosome) is initiated either by RIPK1 deubiquitylation mediated by CYLD or by RIPK1 non-ubiquitylation due to depletion of cIAPs, similar to complex IIa and complex IIb formation. RIPK1 recruits numerous RIPK3 molecules. They come together to form amyloid microfilaments called necrosomes. Activated RIPK3 phosphorylates and recruits MLKL, eventually leading to the formation of a supramolecular protein complex at the plasma membrane and necroptosis ^[1][2].

Reference:
[1]. Brenner D, et al. Regulation of tumour necrosis factor signalling: live or let die.Nat Rev Immunol. 2015 Jun;15(6):362-74.
[2]. Conrad M, et al. Regulated necrosis: disease relevance and therapeutic opportunities.Nat Rev Drug Discov. 2016 May;15(5):348-66.

TNF Receptor Isoform Comparison

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