Technical articles

Ras-Raf-MEK-ERK Signaling

The Ras-Raf-MEK-MAPK-ERK signaling pathway plays a crucial role in cell differentiation, proliferation, and survival. This pathway transmits extracellular signals through ligands of receptor tyrosine kinases on the membrane, activating nuclear transcription factors that regulate gene expression and product synthesis. Protein mutations in this pathway are prevalent in various cancers, leading to hyperactivation of signaling and inducing uncontrolled cell proliferation. Therefore, proteins and receptors in the Ras-Raf-MEK-MAPK-ERK pathway are important targets for anticancer therapies. Additionally, the Ras signaling pathway is closely associated with aging and metabolism, and research on small molecule targeting of this pathway has garnered attention in neurodegenerative diseases. For example, the Ras/ERK pathway, through activation of amyloid precursor protein (APP), promotes the development of neurodegenerative lesions and formation of dendritic plaques. Future research targeting this key pathway may provide novel therapeutic strategies for various diseases.


MEK

MEK (mitogen-activated protein kinase kinase, MAP2K) is a class of tyrosine/threonine kinases activated by Raf, responsible for phosphorylating ERK and other MAPK proteins. There are two isoforms of MEK, MEK1 and MEK2. These kinases may undergo mutations in certain cancer types, leading to sustained and uncontrolled activation.

Figure 1 Chemical structure of ARRY-162


Figure 2 Chemical structure of AZD8330


Name

ID

ARRY-162

M126898B408532

AS-703026

A125227P408137

AZD8330

A127453A409124

GDC-0623

G420768G413780G610532

GSK1120212

T127461T407821

PD184352

C125418P408384

PD325901

M1371702P125494M409191

RDEA119

B426935B339747

Selumetinib

S125580S407860


Ras

Ras family proteins are small GTPases, similar to Rho, Ran, and Arf, involved in regulating intracellular processes like nuclear transport, vesicle trafficking, and signal transduction. Ras proteins are activated by receptor tyrosine kinases, such as growth factor and ephrin receptors. Specific Ras proteins, including K-Ras, H-Ras, and N-Ras, transmit growth factor signals by activating downstream targets like Raf and PI3K. Mutant K-Ras subtypes are overactive and linked to colorectal and pancreatic cancers. Activating mutations in H-Ras are associated with bladder cancer. Similarly, mutations in N-Ras are common in melanoma and thyroid cancer. Ras proteins are targets for drugs like Zoledronic acid and Nilotinib.

Figure 3 Chemical structure of Zoledronic Acid Monohydrate


Name

ID

Deltarasin Hydrochloride

D648580D655480

(E,Z)-4-Hydroxytamoxifen

H113421H408276

Kobe0065

K423962K276196

Kobe2602

K424067K275031

Manumycin A

M274901

Nobiletin

N130079N130078N409132

Zoledronic Acid Hydrate

Z140117


RAF

Raf proteins are serine/threonine kinases responsible for transmitting signals from Ras proteins and amplifying them through the MAPK signaling cascade. The main Raf proteins are A-Raf, B-Raf, and C-Raf. While mutations in A-Raf and C-Raf occur occasionally, mutant B-Raf forms play a significant role in many cancers. In B-Raf, V599 and V600 are part of the activation loop, maintaining the inactive conformation until phosphorylation. Mutations like V599K or V600E disrupt these interactions, induce activation, and lead to uncontrolled signaling and growth. Raf proteins are explored as targets for chemotherapy drugs, like Dabrafenib and Vemurafenib.

Figure 4 Chemical structure of B-Raf IN1


Figure 5 Chemical structure of PLX4720


Figure 6 Chemical structure of SB-590885


Name

ID

AZ628

A129605

B-Raf IN1

B413508B427058

CEP-32496

C126457A407908

Dabrafenib

D127289D409111

Dabrafenib Mesylate

D420864D286637

GDC-0879

G127893G409101

GW5074

G408888G129612

MLN2480

M420574M275976

Pazopanib

P424022P125184

PD184352 (CI-1040)

C125418P408384

PD325901

P125494

PLX4720

P127903

RAF265

R409224R127906

D10137

R420361R413223

SB-590885

S125513

Sorafenib

S125098S408543

TAK-632

T413733T420987

Vemurafenib(PLX4032)

V127521V409259

ZM-336372

Z614980Z129624


ERK

ERK (extracellular signal-regulated kinase) is a classic MAP kinase that receives signals from MEK and other proteins involved in the MAPK signaling cascade, thereby activating downstream transcription factors such as c-Fos, c-Myc, and ELK1. These transcription factors regulate the synthesis of gene products associated with meiosis, mitosis, and cell differentiation. ERK1 or ERK2 signaling plays a crucial role in the initiation and progression of cancer, and it is also closely associated with migraines and mood disorders, such as schizophrenia and bipolar disorder.

Figure 7 Chemical structure of SU-1498


Figure 7 Chemical structure of SU-1498


Name

ID

Apigenin

A106675A464373A106676A408941

Bisdemethoxycurcumin

B117979B131602

Canertinib 2HCl

C423017C169301

CV-65

C276161

Demethoxycurcumin

D117978D299451

Enniatin B1

E329658

4-O-Methylhonokiol

O648808O655579

Nitidine Chloride

N421189N117977

Nobiletin

N130079N130078N409132

Olomoucine II

O276007

Pelitinib

P125444P409066

SU-1498

S422089S167823

Tangeretin

T123655T408390

Ulixertinib(BVD-523)

U413857U409233

VX-11e

V426729V127492


p38 MAPK

The p38 MAPKs are a class of protein kinases involved in cell differentiation, apoptosis, and autophagy. p38 MAPKs participate in regulating the signaling cascades that mediate cellular responses to environmental stress and inflammatory cytokines. There are four known p38 MAPK isoforms: p38-α, β, γ, and δ. Activation of the p38 pathway can trigger the generation of pro-apoptotic transcription factors. As regulators of cell survival, dysregulation of the p38 pathway is a key factor in certain cancers, making compounds that modulate p38 MAPK a potential target for cancer therapy. And they have also shown promise in the treatment of autoimmune diseases and inflammation.

Figure 9 Chemical structure of VX-702


Name

ID

Doramapimod

D125100D408878

Enniatin B

E329483

Hypothemycin

H275191

SB-202190

S134307S408128

SB-203580

S131899S407781

Theaflavin

T664644

VX-702

V408898V345735


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Categories: Technical articles
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Da — when not otherwise indicated, molecular weight units are daltons.   Mw — weight-average molecular weight.   Mn — number-average molecular weight.

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Cite this article

Aladdin Scientific. "Ras-Raf-MEK-ERK Signaling" Aladdin Knowledge Base, updated Aug 12, 2025. https://www.aladdinsci.com/us_en/faqs/ras-raf-mek-erk-signaling-en.html
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