Module 08 · 75 min

Signal Transduction

GPCRs, RTKs, second messengers, and why most prescription drugs target signalling.

CoreClinicalResearch

Topics

What this module covers

01Receptor classes: GPCR, RTK, cytokine (JAK-STAT), TLR, nuclear
02Second messengers: cAMP, cGMP, Ca2+, IP3/DAG, NO, lipids
03Kinase cascades: MAPK (Ras/Raf/MEK/ERK), PI3K/Akt/mTOR, JAK/STAT
04GPCR biased agonism, β-arrestin signalling
05Receptor desensitisation, internalisation, recycling
06Crosstalk and feedback — why monotherapy fails predictably

Deep dives

Lesson sub-pages

advanced 20 min· 3 refs

GPCR biased agonism: beyond on/off pharmacology

Why the same receptor can be analgesic OR respiratory-depressant depending on which pathway it activates.

Learning objectives

By the end of this module you will be able to

L01Trace any approved targeted therapy (a kinase inhibitor, a JAK inhibitor, a SERD) to the node it perturbs.
L02Explain biased agonism and one therapeutic implication.
L03Predict resistance mechanisms for a given pathway block.

Expected takeaways

What you should walk away believing

→≈30% of FDA-approved drugs target GPCRs.
→Resistance to MAPK or EGFR blockade arises predictably via gatekeeper mutations or bypass tracks.
→PI3K/Akt/mTOR integrates growth-factor and nutrient signals — the rationale for rapamycin in transplantation, oncology, and ageing trials.

Core summary

At the Core level

Cells decide what to do via signal transduction: ligand binds receptor → conformational change → cascade → transcriptional or cytoskeletal output. The same logic — kinase phosphorylates substrate, GTPase switches state, second messenger amplifies — recurs across pathways. Drugs that hit one node almost always have downstream and lateral consequences.

Myth vs reality

Common misconception

Claim

All agonists at one receptor produce the same downstream signalling.

Reality

Biased agonists preferentially engage G-protein vs β-arrestin pathways — exploited (intended) for safer opioids (oliceridine) and (unintended) in adverse-effect profiles.

Evidence-graded claims

Claims, scored A–F

Ras was 'undruggable' for 40 years

Until KRAS G12C inhibitors (sotorasib, adagrasib).

Biased agonism produces clinically meaningful safety differences

Theoretical strong; oliceridine modestly so in trials.

All TKIs work indefinitely

Resistance is the rule; sequencing is the strategy.

Quiz

Check your understanding

Q1. Imatinib resistance most commonly arises from:

Q2. Rapamycin inhibits primarily:

Flashcards

Lock it in

1 / 4

Front

MAPK cascade order?

Click to flip

Primary literature

Beyond the ligand: extracellular and transcellular G protein–coupled receptor signaling — Heuberger & Roth, Annu Rev Pharmacol 2019 ↗
KRAS(G12C) inhibition with sotorasib — Hong et al., NEJM 2020 ↗

Bioenergetics & Mitochondrial Cell Biology

Gene Expression & Chromatin