Cell Signaling
- Cell interaction
Signalling Types | Mechanism | Example |
Endocrine | Secretory product → bloodstream → distant target cells | Hormones |
Autocrine | Secretory product → acts on receptors on the same cell | Platelet Activating Factor (PAF) by platelets → activates same platelets |
Paracrine | One cell secretes → acts on nearby cell → Product diffuses | Histamine (ECL cells) → nearby Parietal cells (stimulates acid) |
Juxtacrine | Ligand on one cell directly interacts with receptor on other cell ↳ keep α people just near | Transforming growth factor alpha (TGF-α) signalling. |
Growth Hormone (GH):
From anterior pituitary.
Regulation of GH Secretion:
- Hypothalamus:
- Growth Hormone Releasing Hormone (GHRH)
- Stimulates GH release
- Somatostatin
- Inhibits GH release
- Negative feedback
Insulin-like Growth Factor-1
- GH → acts on liver → secretes IGF-1 (Insulin-like Growth Factor-1) / Somatomedin.
- IGF-1 negative feedback:
- Directly inhibits GH
- Stimulates Somatostatin
- GH only effects
- Na, K, H2O retention
- bone and cartilage growth
- ↓ glucose uptake and ↑ insulin resistance
- IGF only effects
- Anti lipolsis
- Net effect
- GH is a good guy → Gym Human → Want only protein (↑protein synth), no glucose (↓glucose uptake, ↑insulin resistance) and no fat (Lipolysis)→ Want lean body, good bone and cartilage → hydrate well (Na, K, Water)
GH Secretion Pattern:
- Pulsatile throughout day.
Regulation of Growth Hormone
Hormones | Effect |
GHRH | • Stimulates production |
Somatostatin | • Inhibits release |
Ghrelin | • Increases release • GHrelin |
ㅤ | Stimuli | Effect |
Strong stimuli | Strenuous exercise | ↑ GH |
ㅤ | Non-REM sleep | ↑ GH |
ㅤ | REM sleep | ↓ GH |
Other stimuli | Hypoglycemia | ↑ GH |
ㅤ | ↑ Blood amino acids | ↑ GH |
ㅤ | Stress (surgical, physical, mental) | ↑ GH |
- Mnemonic: GH → Story of JAK
- Jak (JAK) nu cycleodikkunna (cytokine) pole Strenuous exercise () cheyyanum NRI (NRE) aavanum ishtam arnnu.
- Avan Pulsor (Pulsatile) bike vaangi.
- Aamina (Amino acid) ye kalyanam kazhikkan fasting (Hypoglycemia → fasting) kidannu. Kalyanam kazhichapo payankara stressfulum (Stress) ayi
REM Sleep – Hormonal Effects
Effect | Hormones |
↑↑ | Prolactin, LH, FSH |
↓↓ | GH, TSH, Cortisol |
- Mnemonic: REM → Story of Remi
- Remi wanted to get periods (LH, FSH) and produce milk (Prolactin)
- She did not want to grow (GH) or build muscles (Cortisol). She did not take thyroid medication (TSH)
Pulsatile Secretions of hormones
- Cortisol
- GnRH
- Growth Hormone
ADH (Antidiuretic Hormone / Vasopressin):
From posterior pituitary.
- Most potent stimulus for ADH secretion.
- Plasma osmolality > 280 mOsm/L
- MOA
- Acts on collecting duct cells → bind V2 receptors.
- Activate V2 receptor (basolateral) → ↑ cAMP
- ↑↑ cAMP → AQP2-containing vesicles fuse with luminal membrane → water enters cell from tubular lumen
- Water exits to blood via AQP3/AQP4 (basolateral, constitutive, not ADH-regulated).
Diabetes Insipidus
ㅤ | Central/Neurogenic DI | Nephrogenic DI |
ADH secretion | Low plasma ADH | ㅤ |
ADH action | ㅤ | ↓↓ [d/t mutation of V2 receptor gen] |
ADH injection | Reduces urine volume. | • Does not reduce urine volume. • Urine osmolality remains low |
Thyroid Hormone
Thyroid gland secretes:
- T4: Primarily (93%)
- T3: Less (7%)
- T3 is the most active form.
Feature | T4 | T3 |
Secretion Rate | Higher | Less |
Plasma Concentration | Higher | Lower |
Half-life | Longer (7 days) | Shorter (1 day) |
Affinity for Nuclear Receptor | Lower | Higher |
Potency | Lower | 3-5 times more potent |
Speed of Action | Slower | Faster action |
Hormone Conversion:
- Most T4 → active T3
- Occurs in: Kidney, liver
- Mediated by: Type 1 Deiodinase.
- Some T4 → inactive Reverse T3 (rT3).
Transport
- T3 and T4 are lipophilic.
- In blood, thyroid hormones are mostly bound to plasma proteins.
- 99% bound to binding proteins.
- 1% Free (Responsible for actions).
- Major binding proteins:
- Thyroxine binding globulin (TBG)
- Maximum T4
- Thyroxine-binding pre-albumin (transthyretin)
- Albumin
- Maximum T3
- Mnemonic:
- T3 → 3 → M →
- MCT
- MIT + DIT
- T4 → 4 → A
- oATP
Effect of Starvation
- Active T3 → ↑↑ BMR.
During starvation
- body conserves energy to ↓↓ BMR.
- T4 levels stable
- T4 → ↑↑ inactive Reverse T3 (rT3).
- T3 levels ↓↓ , rT3 levels ↑↑
Synthesis Mechanism
Raw Materials:
- Tyrosine: From thyroglobulin (Tg).
- Iodine: Present as iodide in diet.
1. Sodium Iodide Symporter (NIS)
- Basolateral end of follicular cells.
- Function: Iodide trapping
- I from blood → cell
- Type: 2° active transport
- uses Na+ gradient by Na+/K+ ATPase
- maintain low Na+ inside the cell.
- Other locations: Salivary gland, mammary gland, placenta.
2. Iodide Antiporter/Pendrin
- Location: Thyroid gland, inner ear.
- Transports Cl- into the cell and I- into the lumen
- Mutation
- Pendred syndrome.
- Symptoms: Goiter, Sensorineural hearing loss.
- Mnemonic: Pendrive → if Go (Goitre) → No song (SNHL)
3. Thyroid Peroxidase (TPO)
- Function:
- Oxidizes reduced iodide (I-) → oxidized I2.
- Organification:
- Catalyzes iodination of tyrosine residues on Tg
- form MIT (monoiodotyrosine) & DIT (diiodotyrosine)
- Coupling reactions:
- MIT + DIT → T3
- DIT + DIT → T4
- DIT + MIT → rT3 (inactive)
- Anti-thyroid drugs:
- Inhibit TPO activity.
- Examples: Propylthiouracil, Carbimazole, Methimazole.
4. Storage
- Thyroglobulin + attached MIT, DIT, T3, and T4
- stored in the colloid in lumen.
- reserve for 2-3 months.
5. Release
- Colloid breakdown → T3, T4 → Released into blood.
Hyperthyroidism
Types
- Primary:
- Grave's disease (m/c cause).
- Toxic multinodular goiter
- Toxic adenoma
- Iatrogenic
- Secondary:
- TSH secreting pituitary adenoma.
- Tertiary:
- Hypothalamus problem
- high TRH - very rare
Myxoedema coma
- Long-standing, untreated Hypothyroid complication:
- CNS: Altered sensorium, lethargy → stupor → coma
- Hypothermia
- Bradycardia, low cardiac output
- Hypoventilation → CO₂ retention
- Hypotension
- Hyponatremia (SIADH-like effect)
- Hypoglycemia
- Puffy face, macroglossia, non-pitting edema
Treatment
- IV Hydrocortisone
- Steroids given before thyroxine
- Drug of choice: IV Levothyroxine
- Most common precipitating factor: Infection
- Most important initial step: Secure airway, support breathing
Radioiodine uptake
Wolf-Chaikoff Effect
- I₂ induced hypothyroidism
- Excess iodide uptake through NIS
- inhibits organification and synthesis of thyroid hormones
- Use: Pre-operative treatment for hyperthyroidism
- (e.g., Rx with lugols iodine prior to thyroidectomy).
Adrenal Hormone
- Adrenal gland parts:
- Cortex (72% weight)
- Medulla (28%).
Adrenal cortex layers & Hormone Production
- Zona Glomerulosa
- Primarily mineralocorticoids
- Stimulus:
- Mainly Angiotensin II
- High potassium levels
- ACTH does not stimulate
- Contain stem cells
- Zona Fasciculata (thickest)
- Primarily glucocorticoids
- Stimulated by ACTH.
- Zona Reticularis
- Primarily sex steroids
- Stimulated by ACTH
Hormone Production in Medulla:
- Epinephrine (90%),
- Norepinephrine (10%).
- Stimulated by sympathetic nervous system.
- Dopamine
Regulation of Glucocorticoids (Cortisol):
Secretion Pattern of Cortisol and ACTH:
- Pulsatile manner.
- Diurnal variation:
- Peak secretion: Morning (around 8:30 AM)
- Lowest secretion: Midnight (around 12:15 AM)
Cortisol Functions: Normal vs. Excess
Feature/System | Physiological (Normal Cortisol) | Pathological (Cortisol Excess / Cushing's Syndrome) |
1. Protein Metabolism | - Muscle: Proteolysis → Alanine (Catabolic) | - Muscle weakness |
ㅤ | - Liver: Synthesis of plasma proteins (Anabolic) | - Proximal myopathy (Steroid myopathy) |
2. Carbohydrate Metabolism | - Gluconeogenesis → Hyperglycemia (Alanine → Glucose) | - Glucose intolerance |
ㅤ | ㅤ | - Diabetes mellitus (Adrenal diabetes) |
3. Lipid Metabolism | - Lipolysis → ↑ free fatty acids | - Dyslipidemia |
ㅤ | ㅤ | - Fat deposition: Buffalo hump, moon face |
4. Immune System | - Universal anti-inflammatory agent: | - ↑ Susceptibility to infections |
ㅤ | - ⛔ Leukotrienes | ㅤ |
ㅤ | - ⛔ Phospholipases A₂ | ㅤ |
5. Blood Cells | - ↓ Eosinophils, basophils & lymphocytes | - Eosinopenia |
ㅤ | - ↑ RBCs, neutrophils & platelets | - Hypercoagulable state |
6. Nervous System | - ↑ Appetite → Weight gain | - Irritability, ↑ Weight gain |
ㅤ | - Alters mood & behavior | - Psychosis |
7. Heart | - ↑ Cardiac output | - Hypertension |
ㅤ | - ↑ Vascular tone | - Atherosclerosis |
8. Kidney | - ↑ GFR | - Hypercalciuria → Renal stones |
ㅤ | - ↑ Ca²⁺ excretion | ㅤ |
9. Bone & Connective Tissues | - ⛔ fibroblast proliferation | - Thin skin |
ㅤ | - ⛔ collagen formation | - Easy bruising/ecchymosis |
ㅤ | - Promotes: Bone resorption | - Pendulous abdomen |
ㅤ | ㅤ | - Purple striae |
ㅤ | ㅤ | - Osteoporosis |
ㅤ | ㅤ | - Thin arms and legs |
10. GIT (Gastrointestinal Tract) | - ↑ Gastric acid production | - Peptic ulcer |
11. Reproduction | - ⛔ GnRH | - Amenorrhea |
ㅤ | ㅤ | - Loss of libido |
ㅤ | ㅤ | - Infertility |
SAME (Syndrome of Apparent Mineralocorticoid Excess)
Feature | Normal Physiology | SAME |
11 β-HSD type 2 enzyme | Active | ⛔ by Glycyrrhetinic acid (from Licorice consumption) |
Cortisol Conversion | Cortisol → Inactive cortisol | not converted → remains active |
Cortisol binding to mR | Prevented | Unopposed binding (due to enzyme inhibition) |
Resulting Mineralocorticoid Action | Normal | Increased (apparent excess) |
Aldosterone
- t½: 20 mins.
Site 1: Primarily in Principal Cell (CD)
- Collecting duct
- Aldosterone acts on Mineralocorticoid Receptor (MR)
- MR (Inactive) → Aldosterone binding → Active MR → ↑↑ activity of
- Overall: Na⁺ reabsorption & K⁺ secretion.
Specific Channels | Function |
ENaC | ↑ Na⁺ reabsorption |
ROMK (Renal Outer Medullary K⁺ channel) | ↑ K⁺ secretion |
Na⁺-K⁺ ATPase (basolateral membrane): | Pumps 3 Na⁺ out and 2 K⁺ into the cell → maintaining gradient. |
Site 2: Type A Intercalated Cell (DCT)
- ↑ H⁺ secretion via H⁺-ATPase
- Overall: H⁺ secretion and HCO₃⁻ reabsorption ⇒ Metabolic alkalosis
MR sites:
- Kidneys, colon, hippocampus, salivary glands, sweat glands.
Factors Regulating Aldosterone Synthesis
- Hyperkalemia → Stimulates aldosterone release.
- ACTH → Increases aldosterone transiently.
Intercalated cells
Dominant Cell | Site | Process | Result |
Type A intercalated | • DCT | A Attract B H⁺ secreted, HCO₃⁻ reabsorbed | In Acidosis → ↑ plasma HCO₃⁻ |
Type B intercalated | • Late DCT • Cortical collecting duct | B Repel B H⁺ reabsorbed, HCO₃⁻ secreted | In Alkalosis → ↓ plasma HCO₃⁻ (excreted) |
Classification of Drugs
Type | Duration of Action | Examples |
Glucocorticoids | Short Acting (<12h) | Cortisone, Hydrocortisone |
ㅤ | Intermediate Acting (12-36h) | Prednisone, Prednisolone, Triamcinolone |
ㅤ | Long Acting (>36h) | Dexamethasone, Betamethasone, Paramethasone |
Mineralocorticoids | - | Aldosterone, Fludrocortisone, Deoxycorticosterone Acetate (DOCA) |
Special Points
Property | Drug | Mnemonic |
Maximum G activity | Dexamethasone | ㅤ |
Maximum M activity | Aldosterone | ㅤ |
G with max M activity | Hydrocortisone | Hydro = Paani = Maximum water |
M with max G activity | Fludrocortisone | Flu dro cortisone = Fluid drawing steroid |
Selective G | Triamcinolone, Dexamethasone, Betamethasone | Mineralocorticoid = 0 Look for M & O |
Selective M | DOCA | Drug with O corticosteroid activity |
- G means glucocorticoid (anti-inflammatory).
- M means mineralocorticoid (Na+ and H2O retaining)
Metyrapone Test for Adrenal insufficiency
- NOT HYPERALDOSTERONISM
- Assess HPA axis integrity.
- Metyrapone
- ⛔ synthesis of glucocorticoids
- ⛔ 11-beta-hydroxylase
- Blocks conversion of:
- 11-deoxycortisol → Cortisol
- → ↓ Cortisol synthesis.
- Leads to ↑ ACTH secretion (loss of negative feedback).
- Accumulation of 11-deoxycortisol
- Madureponu (Metyrapone) sex change cheyth
- (11 β hydroxylase → Ambiguous genitalia CAH)
- Procedure:
- Give Metyrapone at midnight
- measure plasma cortisol & 11-deoxycortisol in morning.
- Normal response:
- ↓ Cortisol
- ↑ 11-deoxycortisol (due to intact ACTH response).
- Abnormal response:
- No rise in 11-deoxycortisol → indicates adrenal insufficiency or pituitary failure.
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