Which of the following is the PRIMARY physiological action of insulin in the fed state?

Activation of key enzymes of glycolysis

Increased amino acid entry in the cell

Which of the following is FALSE about insulin action?

Insulin promotes glycogen synthesis

Which of the following statements best describes the mechanism of action of insulin on target cells?

Insulin binds to a transmembrane receptor on the outer surface of the plasma membrane, activating the tyrosine kinase in the cytosolic domain of the receptor.

Insulin binds to a receptor on the outer surface of the plasma membrane, activating adenylate cyclase through the Gs protein.

Insulin binds to a cytoplasmic receptor and is transferred as a hormone receptor complex to the nucleus to modulate gene expression.

Insulin enters the cell and causes the release of calcium ions from intracellular stores.

Two normal, healthy subjects volunteer for a study on insulin secretion. In Patient 1, blood glucose is increased to 150 mg/dL by direct intravenous infusion. In Patient 2, blood glucose is increased to 150 mg/dL by ingestion of oral glucose. The peak plasma insulin concentration produced in Patient 1 is 70 uU/mL while in Patient 2, it is 95 uU/mL. Which of the following best explains the higher insulin concentration in Patient 2?

Ingested glucose increases duodenal secretion of gastric inhibitory peptide (GIP), increasing beta cell release of insulin

Intravenous glucose increases islet cell secretion of somatostatin, inhibiting beta cell release of insulin

Intravenous glucose increases islet cell secretion of glucagon, inhibiting beta cell release of insulin

Ingested glucose activates a sympathetic reflex that increases beta cell release of insulin

Select the correct sequence of events in the cAMP signaling pathway.

Adenylyl cyclase converts ATP to cAMP, which activates PKA.

PKA is activated before cAMP is formed.

Adenylyl cyclase activates PKA before producing cAMP.

cAMP directly activates adenylyl cyclase to produce more cAMP.

What is the primary effect of GLP-1 on insulin secretion?

Increased insulin secretion from beta-cells of pancreas

Increased aldosterone secretion by adrenal

Increased testosterone secretion from Leydig cells

What is the primary function of G-proteins in cellular signaling?

Intracellular signaling molecules

Insulin Signaling Pathway for NEET-PG: High-Yield Biochemistry Lessons

Insulin & Receptor - The Initial Handshake

Insulin:
- Source: Pancreatic $\beta$-cells.
- Nature: Peptide hormone (51 amino acids; A & B chains).
- Key Stimuli for Release:
  - ↑ Blood glucose (major trigger, e.g., >100 mg/dL or >5.5 mmol/L).
  - Amino acids (leucine, arginine).
  - Incretins (GLP-1, GIP).
Insulin Receptor (IR):
- Type: Receptor Tyrosine Kinase (RTK).
- Structure: Heterotetramer ($2\alpha, 2\beta$). 📌 Mnemonic: Alpha Outside (binds insulin), Beta Below (transmembrane) & Busy (kinase activity).
  - $\alpha$-subunits: Extracellular, insulin binding.
  - $\beta$-subunits: Transmembrane, intrinsic tyrosine kinase.
- Location: Liver, muscle, adipose tissue (high density).

⭐ The insulin receptor is unique as it's a pre-formed (αβ)₂ dimer, unlike other RTKs that dimerize upon ligand binding.

Signaling Cascade - Domino Effect Inside

Receptor autophosphorylation → IRS (Insulin Receptor Substrate) protein phosphorylation.
- IRS acts as a docking hub for SH2-domain proteins.
Key Downstream Pathways:
- 1. PI3K-Akt Pathway (Mainly Metabolic):
  - IRS → PI3K activation.
  - PI3K: $PIP_2$ → $PIP_3$ (second messenger).
  - $PIP_3$ recruits PDK1 & Akt (PKB).
  - Activated Akt →
    - ↑ GLUT4 translocation (muscle/adipose).
    - ↑ Glycogen synthesis, ↓ Gluconeogenesis.
    - ↑ Protein synthesis, ↑ Lipogenesis.
- 2. Ras-MAPK Pathway (Mainly Mitogenic/Growth):
  - IRS/Shc → Grb2-SOS complex.
  - SOS activates Ras (GTP-binding protein).
  - Ras → Raf → MEK → ERK (MAPK).
  - ERK (to nucleus) → Gene expression changes (cell growth, proliferation).

Detailed Insulin Signaling Pathway and Related Pathways

⭐ $PIP_3$ acts as a crucial second messenger, recruiting Akt and PDK1 to the plasma membrane, a key step in insulin's metabolic actions.

Metabolic Actions - Sweet Results & More

Overall: Anabolic hormone promoting fuel storage.
Carbohydrate Metabolism (↓ Blood Glucose):
- ↑ Glucose uptake: GLUT4 translocation (muscle, adipose tissue).
- ↑ Glycogen synthesis (liver, muscle): Activates glycogen synthase.
- ↓ Glycogenolysis: Inhibits glycogen phosphorylase.
- ↑ Glycolysis (liver): Induces glucokinase, PFK-1, pyruvate kinase.
- ↓ Gluconeogenesis (liver): Represses PEPCK, FBP-1, G6Pase.
Lipid Metabolism (Anti-lipolytic, Lipogenic):
- ↑ Triglyceride synthesis (adipose, liver): Activates Acetyl-CoA carboxylase, ↑ LPL.
- ↓ Lipolysis (adipose): Inhibits Hormone-Sensitive Lipase (HSL).
- ↓ Ketogenesis (liver).
Protein Metabolism (Anabolic):
- ↑ Amino acid uptake & protein synthesis.
- ↓ Protein catabolism.
Electrolyte Balance:
- ↑ K+ uptake into cells (via Na+/K+ ATPase stimulation).

⭐ Insulin is a key regulator of Hormone-Sensitive Lipase (HSL); its inhibition by insulin prevents triglyceride breakdown in adipocytes, reducing free fatty acid release.

Regulation & Dysregulation - Pathway Control Issues

Signal Termination Mechanisms:
- Protein Tyrosine Phosphatases (PTPs, e.g., PTP1B) dephosphorylate Insulin Receptor (IR) & IRS proteins.
- Serine/Threonine (Ser/Thr) kinases (e.g., JNK, IKK, PKC) phosphorylate IRS (inhibitory effect).
- Suppressor of Cytokine Signaling (SOCS) proteins promote IRS degradation.
- Insulin receptor internalization & subsequent degradation.
Dysregulation & Pathophysiology:
- Insulin Resistance (IR):
  - Decreased cellular responsiveness to insulin.
  - Key Causes: Genetic defects, chronic inflammation (↑IRS Ser/Thr phosphorylation), obesity (↑Free Fatty Acids, TNF-α).
- Type 2 Diabetes Mellitus (T2DM):
  - Develops from progressive IR combined with β-cell dysfunction.
  - Characterized by hyperglycemia; often initial hyperinsulinemia.

⭐ Ser/Thr phosphorylation of IRS proteins (e.g., by JNK or IKK) is a critical molecular mechanism contributing to insulin resistance development in states like obesity and inflammation.

High‑Yield Points - ⚡ Biggest Takeaways

Insulin binds to a Tyrosine Kinase Receptor (RTK), causing autophosphorylation.

IRS proteins are crucial adaptors, activating the PI3K/Akt pathway for metabolic effects.

GLUT4 translocation to membranes of muscle and adipose tissue is a key outcome.

The MAPK pathway is also activated, mediating mitogenic effects (e.g., growth).

Insulin is anabolic: ↑glycogen synthesis, ↑lipogenesis, ↑protein synthesis.

Insulin is anti-catabolic: ↓gluconeogenesis, ↓glycogenolysis, ↓lipolysis.

PTEN phosphatase opposes PI3K signaling, a key negative regulator.

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