BMP and Retinoic Acid Interaction Promotes Neural Development and Growth

BMP and Retinoic Acid Interaction Promotes Neural Development and Growth

Bone morphogenetic protein (BMP) is a transmembrane protein that plays a crucial role in the development, growth, and maintenance of bone tissue. Retinoic acid (RA) is a signaling molecule that regulates cellular processes, including cell growth, differentiation, and survival. In recent years, researchers have discovered that BMP and RA can interact to promote neural development and growth.BRINP3, a protein that contains both BMP and RA-responsive domains, has been identified as a potential drug target or biomarker for various neurological disorders.

BMP signaling

BMP is a cytoplasmic protein that plays a vital role in the development and maintenance of tissues, including bones, teeth, and hair. BMP signaling involves the activation of several intracellular signaling pathways, including the TGF-β pathway,2/3-BP signaling pathway,3/7-BP signaling pathway, and the FAK/PAF signaling pathway.

The TGF-β pathway is the most well-established signaling pathway associated with BMP. TGF-β signaling is a complex process that involves the activation of multiple transcription factors, including SMAD1,3, and4, which then induce the expression of target genes involved in cell growth, differentiation, and survival.

The FAK/PAF signaling pathway is another critical pathway associated with BMP. This pathway involves the engagement of the protein FAK (focal adhesion kinase) and the protein PAF (p21), which can lead to the formation of a focal adhesion complex (FAC) and the inhibition of the phosphatidylinositol (PI) signaling pathway.

Retinoic acid signaling

Retinoic acid is a signaling molecule that plays a crucial role in the regulation of cellular processes, including cell growth, differentiation, and survival. Retinoic acid signaling involves the engagement of several transcription factors, including ARAF ( arrest-associated gene 1),2/3-BP transcription factor,3/7-BP transcription factor, and PGR (retinoblastoma gene) 2.

ARAF is a transcription factor that regulates the expression of genes involved in cell growth, differentiation, and survival. It has been shown to play a crucial role in the regulation of BMP signaling by promoting the expression of genes involved in the TGF-β pathway.

The 3/7-BP and PGR transcription factors are also involved in the regulation of BMP signaling. The 3/7-BP transcription factor is known to regulate the expression of genes involved in the BMP signaling pathway, while the PGR transcription factor is involved in the regulation of BMP signaling by promoting the expression of genes involved in the FAK/PAF signaling pathway.

BRINP3 functions

BRINP3 is a protein that contains both BMP and RA-responsive domains. The RA-responsive domain of BRINP3 is capable of binding to RA with high affinity, while the BMP-responsive domain of BRINP3 is capable of binding to BMP with high affinity.

BRINP3 has been shown to play a crucial role in the regulation of neural development and growth.BRINP3 can induce the expression of neural-specific genes, including neurotransmitter genes, neuron-specific protein genes, and genes involved in cell signaling pathways, such as dopamine, serotonin, and GABA.

BRINP3 can also regulate the activity of several intracellular signaling pathways, including the TGF-β pathway,2/3-BP signaling pathway,3/7-BP signaling pathway, and the FAK/PAF signaling pathway.

BRINP3 signaling

BRINP3 signaling involves the engagement of BMP and RA, which can lead to the formation of a focal adhesion complex (FAC) and the inhibition of the phosphatidylinositol (PI) signaling pathway. The FAC formed by BMP and RA can

Protein Name: BMP/retinoic Acid Inducible Neural Specific 3

Functions: Inhibits neuronal cell proliferation by negative regulation of the cell cycle transition. Promotes pituitary gonadotrope cell proliferation, migration and invasion, when overexpressed. May play a role in cell pituitary tumor development

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More Common Targets

BRIP1 | BRISC complex | BRIX1 | BRK1 | BRME1 | BRMS1 | BRMS1L | Bromodomain adjacent to zinc finger domain protein | Bromodomain-containing protein | BROX | BRPF1 | BRPF3 | BRS3 | BRSK1 | BRSK2 | BRWD1 | BRWD1 intronic transcript 2 (non-protein coding) | BRWD1-AS2 | BRWD3 | BSCL2 | BSDC1 | BSG | BSN | BSN-DT | BSND | BSPH1 | BSPRY | BST1 | BST2 | BSX | BTAF1 | BTBD1 | BTBD10 | BTBD16 | BTBD17 | BTBD18 | BTBD19 | BTBD2 | BTBD3 | BTBD6 | BTBD7 | BTBD8 | BTBD9 | BTC | BTD | BTF3 | BTF3L4 | BTF3P11 | BTF3P7 | BTF3P9 | BTG1 | BTG2 | BTG2-DT | BTG3 | BTG4 | BTK | BTLA | BTN1A1 | BTN2A1 | BTN2A2 | BTN2A3P | BTN3A1 | BTN3A2 | BTN3A3 | BTNL10P | BTNL2 | BTNL3 | BTNL8 | BTNL9 | BTRC | BUB1 | BUB1B | BUB1B-PAK6 | BUB3 | BUD13 | BUD23 | BUD31 | Butyrophilin | Butyrophilin subfamily 3 member A (BTN3A) | BVES | BVES-AS1 | BYSL | BZW1 | BZW1-AS1 | BZW1P2 | BZW2 | C-C chemokine receptor | C10orf105 | C10orf113 | C10orf120 | C10orf126 | C10orf143 | C10orf53 | C10orf55 | C10orf62 | C10orf67 | C10orf71 | C10orf71-AS1 | C10orf82 | C10orf88