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Cardiotrophin-like Cytokine CLC Signaling Pathways

Click on the other IL-6 family cytokines shown in the Explore Pathways box below to see the signaling pathways that are activated by each cytokine. Refer to the table below each pathway to see a select list of cytokine-expressing cells or tissues and the primary biological effects induced by the different members of the IL-6 cytokine family.

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Cardiotrophin-like
cytokine (CLC)

CLF

sCNTF R alpha

CLC Secretion

CLF

CLC

CNTF R alpha

CLC

CLF

LIF R

gp130

CLC-CLF Receptor
Complex

CNTF R alpha

CLC

CLF

LIF R

gp130

Sortilin

Tyk2

Jak2

Jak1

Tyk2

Jak2

Jak1

CLC-sCNTF R alpha
Receptor Complex

gp130

LIF R

sCNTF R
alpha

CLC

Jak1

Tyk2

Jak2

Jak1

gp130

LIF R

CLC

sCNTF R alpha

IRS1/2

SHP-2

Grb2

SOS

Gab1/2

PI 3-K

PIP₂

PIP₃

PDK-1

Akt/PKB

Cell Survival
Cell Proliferation

TSC1/2
(Inactive)

Rheb

GTP

mTORC1

p70 S6K

RPS6

4EBP1

eIF4E

4EBP1

Protein Synthesis

STAT1

STAT3

STAT5

STAT Dimer

SHP-2 or SHC

Grb2

SOS

Gab1/2

Vav

Rac1

MAPKKK
(Unknown)

MKK-4

p38

JNK

PKC delta

AP-1

Cell Proliferation

Ras

Raf

MEK1/2

ERK1/2

p90 RSK

Transcription Factor

Overview of Cardiotrophin-like cytokine (CLC) Signaling Pathways

Cardiotrophin-like cytokine (CLC), also known as novel neurotrophin-1 (NNT-1) and B cell stimulatory factor-3 (BSF-3), is a member of the IL-6 cytokine family, which also includes IL-6, IL-11, IL-27 p28/IL-30, IL-31, Leukemia inhibitory factor (LIF), Oncostatin M (OSM), Ciliary neurotrophic factor (CNTF), Cardiotrophin-1 (CT-1), and Neuropoietin. IL-6 family cytokines are structurally related and with the exception of IL-31, they typically activate receptor complexes that include the signal-transducing gp130 receptor subunit. Like other IL-6 family cytokines, CLC is a four-helix bundle cytokine. Although it contains a signal peptide, CLC must be associated with either a second soluble cytokine receptor known as Cytokine-like factor-1 (CLF-1) or soluble CNTF R alpha to be efficiently secreted. Following secretion, the CLC:CLF-1 composite cytokine binds to the glycosylphosphatidylinositol-anchored, non-signaling CNTF R alpha receptor subunit. This complex of CLC:CLF-1 and membrane-bound CNTF R alpha or the CLC:soluble CNTF R alpha complex can then recruit the signal-transducing receptor subunits, LIF R and gp130. As both CLF-1 and LIF R were found to interact with CLC through the same site, it has been suggested that CLF-1 may be removed from the receptor complex. If this is the case, the CLC receptor complex consists of either membrane-bound or soluble CNTF R alpha , LIF R, and gp130. Sortilin, a member of the Vps10p domain family of type I transmembrane receptors, may also be part of the CLC receptor complex as it has been shown to bind to CNTF, CLC/CLF-1, and Neuropoietin with high affinity and enhance the assembly of LIF R and gp130. Following receptor complex formation, multiple intracellular signaling pathways are activated downstream of the CLC composite cytokines including the Jak-STAT pathway, the Ras-MAPK pathway, the PI 3-K-Akt pathway, and the p38 and JNK MAPK pathways, which mediate various biological effects in different cell types. CLC composite cytokines have been shown to support motor and sympathetic neuron survival, promote astrocyte differentiation, inhibit locomotor activity during the circadian rest period, inhibit osteoblast differentiation, and have immunomodulatory effects. Unlike CNTF, the CLC:CLF-1 composite cytokine also plays an important role during development as mice lacking CLC or CLF-1 die soon after birth due to a suckling defect that is associated with a reduction in facial motor neurons. Similarly, mutations in CLF-1 or CLC in humans are associated with a rare autosomal recessive disorder known as Crisponi/cold-induced sweating syndrome, which is characterized by musculoskeletal abnormalities, facial weakness, and suckling defects that can be lethal early in life.

To learn more, please visit our IL-6 Family Research Area page.

Primary CLC-Expressing Tissues	Primary Biological Effects of CLC Composite Cytokines
Embryonic skeletal muscle fibers	CLC-CLF plays an important role during development
Adult tissues including the heart, liver, lymph nodes, colon, kidney, spleen, and ovary	Supports motor and sympathetic neuron survival and promotes astrocyte differentiation
	May inhibit locomotor activity during the circadian rest period
	Stimulates an acute phase response, a reduction in body weight, and B cell hyperplasia in mice
	CLC-CLF mutations are associated with Crisponi or cold-induced sweating syndromes and lead to early neonatal death due to a suckling defect associated with a reduced number of facial motor nuerons and musculoskeletal abnormalities
	Inhibits osteoblast differentiation
	Overexpression of CLC stimulates B cell differentiation and antibody production

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