Aging effects on cardiovascular system US Medical PG Practice Questions and MCQs
Practice US Medical PG questions for Aging effects on cardiovascular system. These multiple choice questions (MCQs) cover important concepts and help you prepare for your exams.
Aging effects on cardiovascular system US Medical PG Question 1: A 66-year-old woman presents to the emergency department after a fall 4 hours ago. She was on her way to the bathroom when she fell to the ground and lost consciousness. Although she regained consciousness within one minute, she experienced lightheadedness for almost half an hour. She has experienced on-and-off dizziness for the past 2 weeks whenever she tries to stand. She has a history of type 2 diabetes mellitus, hypertension, hypercholesterolemia, and chronic kidney disease secondary to polycystic kidneys. Her medications include aspirin, bisoprolol, doxazosin, erythropoietin, insulin, rosuvastatin, and calcium and vitamin D supplements. She has a blood pressure of 111/74 mm Hg while supine and 84/60 mm Hg on standing, the heart rate of 48/min, the respiratory rate of 14/min, and the temperature of 37.0°C (98.6°F). CT scan of the head is unremarkable. Electrocardiogram reveals a PR interval of 250 ms. What is the next best step in the management of this patient?
- A. Tilt table testing
- B. Holter monitoring
- C. Stop antihypertensive medicines (Correct Answer)
- D. Electroencephalogram
- E. Start anti-epileptics
Aging effects on cardiovascular system Explanation: ***Stop antihypertensive medicines***
- The patient exhibits significant **orthostatic hypotension** (systolic drop of 27 mm Hg and diastolic drop of 14 mm Hg, along with lightheadedness lasting 30 minutes) [1] and **bradycardia** (48/min), suggesting that her antihypertensive medications, particularly **doxazosin** (an alpha-blocker causing vasodilation) and **bisoprolol** (a beta-blocker causing bradycardia), are contributing to her symptoms [4].
- Given her fall, lightheadedness, and profound orthostatic changes, immediately reducing or discontinuing the medications causing hypotension and bradycardia is the priority to stabilize her blood pressure and heart rate, preventing further syncopal episodes or falls [1], [4].
*Tilt table testing*
- This test is primarily used to diagnose **vasovagal syncope** or **postural orthostatic tachycardia syndrome (POTS)**, often when routine orthostatic measurements are equivocal or other causes have been ruled out [2].
- In this case, the patient's orthostatic hypotension is clearly documented with current medications, and the immediate concern is medication-induced, making further diagnostic testing for this specific cause less urgent than medication adjustment.
*Holter monitoring*
- **Holter monitoring** is useful for detecting intermittent **cardiac arrhythmias** that may cause syncope.
- While the patient has a prolonged PR interval (250 ms) indicating first-degree AV block, which rarely causes syncope on its own, her primary issue appears to be profound orthostatic hypotension [2] and bradycardia likely exacerbated by medications, rather than an uncaptured paroxysmal arrhythmia.
*Electroencephalogram*
- An **EEG** is indicated to diagnose **seizures** as a cause of loss of consciousness.
- The patient's fall and brief loss of consciousness followed by lightheadedness align with syncope rather than a seizure [3]; her CT scan is unremarkable, and there are no typical seizure features (e.g., tonic-clonic movements, postictal confusion, tongue biting) [3].
*Start anti-epileptics*
- Starting **anti-epileptics** would only be appropriate if there was strong evidence of a seizure disorder, such as clear clinical presentation of seizure or abnormal EEG findings.
- There is no clinical or imaging evidence to support a seizure diagnosis in this patient; her symptoms are more consistent with cardiovascular causes, specifically medication-induced syncope [3].
Aging effects on cardiovascular system US Medical PG Question 2: A 59-year-old man is brought to the emergency department one hour after developing shortness of breath and “squeezing” chest pain that began while he was mowing the lawn. He has asthma, hypertension, and erectile dysfunction. Current medications include salmeterol, amlodipine, lisinopril, and vardenafil. His pulse is 110/min and blood pressure is 122/70 mm Hg. Physical examination shows diaphoresis. An ECG shows sinus tachycardia. Sublingual nitroglycerin is administered. Five minutes later, his pulse is 137/min and his blood pressure is 78/40 mm Hg. Which of the following is the most likely mechanism of this patient's hypotension?
- A. Bradykinin accumulation
- B. Cyclic GMP elevation (Correct Answer)
- C. Decreased nitric oxide production
- D. Calcium channel antagonism
- E. Alpha-1 receptor antagonism
Aging effects on cardiovascular system Explanation: ***Cyclic GMP elevation***
- The patient's severe hypotension after nitroglycerin administration is likely due to an interaction with **vardenafil**, a **phosphodiesterase-5 (PDE5) inhibitor**.
- Both nitroglycerin and vardenafil increase levels of **cyclic guanosine monophosphate (cGMP)**, leading to excessive systemic vasodilation and profound hypotension.
*Bradykinin accumulation*
- This is a well-known side effect of **ACE inhibitors (e.g., lisinopril)**, manifesting primarily as a dry cough or angioedema.
- While the patient is on lisinopril, bradykinin accumulation does not immediately cause severe hypotension following nitroglycerin administration in this manner.
*Decreased nitric oxide production*
- Nitric oxide (NO) is a **vasodilator**; decreased production would typically lead to vasoconstriction and *increased* blood pressure, not hypotension.
- Nitroglycerin, in fact, works by **increasing NO production** or release to induce vasodilation.
*Calcium channel antagonism*
- **Amlodipine** is a calcium channel blocker, which can cause vasodilation and lower blood pressure.
- However, the sudden and severe drop in blood pressure observed *after* nitroglycerin is not primarily due to an additive effect of amlodipine in the way PDE5 inhibitors interact.
*Alpha-1 receptor antagonism*
- Alpha-1 receptor antagonists (e.g., prazosin, doxazosin) cause **vasodilation** by blocking norepinephrine's action on blood vessels.
- While they can cause orthostatic hypotension, the patient is not on such a medication, and this mechanism does not explain the acute, severe drop seen after nitroglycerin.
Aging effects on cardiovascular system US Medical PG Question 3: A woman with coronary artery disease is starting to go for a walk. As she begins, her heart rate accelerates from a resting pulse of 60 bpm until it reaches a rate of 120 bpm, at which point she begins to feel a tightening in her chest. She stops walking to rest and the tightening resolves. This has been happening to her consistently for the last 6 months. Which of the following is a true statement?
- A. This patient's chest pain is indicative of transmural ischemia
- B. Perfusion of the myocardium takes place equally throughout the cardiac cycle
- C. Increasing the heart rate increases the amount of time spent during each cardiac cycle
- D. Increasing the heart rate decreases the relative amount of time spent during diastole (Correct Answer)
- E. Perfusion of the myocardium takes place primarily during systole
Aging effects on cardiovascular system Explanation: ***Increasing the heart rate decreases the relative amount of time spent during diastole***
- With increasing heart rate, the **duration of the cardiac cycle decreases**, but this reduction is disproportionately greater in **diastole (filling phase)** compared to systole (ejection phase), which becomes critical in patients with coronary artery disease as myocardial perfusion occurs during diastole.
- Reduced diastolic time means less time for **coronary artery filling** and **myocardial perfusion**, exacerbating ischemia in the presence of fixed coronary stenosis.
*This patient's chest pain is indicative of transmural ischemia*
- The patient's symptoms are consistent with **stable angina**, characterized by chest pain with exertion that resolves with rest, suggesting **subendocardial ischemia** rather than transmural.
- **Transmural ischemia** typically indicates a more severe, often prolonged, and extensive reduction in blood flow, such as in a **ST-elevation myocardial infarction (STEMI)**.
*Perfusion of the myocardium takes place equally throughout the cardiac cycle*
- Myocardial perfusion is **not equal throughout the cardiac cycle**; it primarily occurs during **diastole** when the heart muscle is relaxed and coronary arteries are less compressed.
- During **systole**, the contracting myocardium compresses the coronary arteries, restricting blood flow, especially to the **subendocardial layers**.
*Increasing the heart rate increases the amount of time spent during each cardiac cycle*
- **Increasing heart rate** by definition **decreases the total duration of each cardiac cycle** (e.g., if heart rate is 60 bpm, cycle duration is 1 second; if 120 bpm, cycle duration is 0.5 seconds).
- While both systole and diastole shorten, the **diastolic phase shortens more significantly**, which is problematic for myocardial perfusion.
*Perfusion of the myocardium takes place primarily during systole*
- **Myocardial perfusion primarily occurs during diastole**, not systole, because the **intramyocardial pressure is lower** and the coronary arteries are less compressed, allowing for better blood flow.
- During **systole**, the high intramyocardial pressure, especially in the left ventricular wall, compresses the coronary vessels, significantly reducing blood flow to the myocardium.
Aging effects on cardiovascular system US Medical PG Question 4: A group of researchers is looking to study the effect of body weight on blood pressure in the elderly. Previous work measuring body weight and blood pressure at 2-time points in a large group of healthy individuals revealed that a 10% increase in body weight was accompanied by a 7 mm Hg increase in blood pressure. If the researchers want to determine if there is a linear relationship between body weight and blood pressure in a subgroup of elderly individuals in this study, which of the following statistical methods would best be employed to answer this question?
- A. Spearman’s correlation
- B. Pearson’s correlation (Correct Answer)
- C. One-way analysis of variance (ANOVA)
- D. Two-way analysis of variance (ANOVA)
- E. Wilcoxon signed-rank test
Aging effects on cardiovascular system Explanation: ***Pearson’s correlation***
- **Pearson's correlation coefficient** measures the **strength and direction of a linear relationship between two continuous variables**. In this case, both body weight and blood pressure are continuous variables, and the researchers are looking for a *linear relationship*.
- The prior work also suggests a linear relationship ("a 10% increase in body weight was accompanied by a 7 mm Hg increase in blood pressure"), making Pearson's correlation the most appropriate choice to investigate this in a subgroup.
*Spearman’s correlation*
- **Spearman's correlation** measures the **strength and direction of a monotonic relationship (not necessarily linear) between two ranked variables or continuous variables that do not meet the assumptions for Pearson's correlation (e.g., non-normal distribution, outliers).**
- Since the question specifies a "linear relationship" and does not suggest violations of Pearson's assumptions, it is less appropriate than Pearson's.
*One-way analysis of variance (ANOVA)*
- **One-way ANOVA** is used to compare the **means of three or more independent groups** on a single continuous dependent variable.
- This method is not suitable because the researchers are investigating the relationship between two continuous variables (body weight and blood pressure), not comparing means across different discrete groups.
*Two-way analysis of variance (ANOVA)*
- **Two-way ANOVA** is used to examine the **effect of two categorical independent variables on a continuous dependent variable** and to assess any interaction between the two independent variables.
- Similar to one-way ANOVA, this test is inappropriate for determining the linear relationship between two continuous variables.
*Wilcoxon signed-rank test*
- The **Wilcoxon signed-rank test** is a **non-parametric test** used to compare two dependent (paired) samples, or to compare a single sample to a hypothesized median. It assesses whether two related samples differ in their ranks.
- This test is not suitable for investigating the linear relationship between two continuous variables in a single group of individuals.
Aging effects on cardiovascular system US Medical PG Question 5: A 60-year-old male engineer who complains of shortness of breath when walking a few blocks undergoes a cardiac stress test because of concern for coronary artery disease. During the test he asks his cardiologist about what variables are usually used to quantify the functioning of the heart. He learns that one of these variables is stroke volume. Which of the following scenarios would be most likely to lead to a decrease in stroke volume?
- A. Anxiety
- B. Heart failure (Correct Answer)
- C. Exercise
- D. Pregnancy
- E. Digitalis
Aging effects on cardiovascular system Explanation: ***Heart failure***
- In **heart failure**, the heart's pumping ability is impaired, leading to a reduced **ejection fraction** and thus a decreased **stroke volume**.
- The weakened myocardium cannot effectively contract to expel the normal volume of blood, resulting in lower blood output per beat.
*Anxiety*
- **Anxiety** typically causes an increase in **sympathetic nervous system** activity, leading to increased heart rate and myocardial contractility.
- This often results in a temporary **increase in stroke volume** due to enhanced cardiac performance, not a decrease.
*Exercise*
- During **exercise**, there is a significant **increase in venous return** and sympathetic stimulation, leading to increased **end-diastolic volume** and contractility.
- This physiological response causes a substantial **increase in stroke volume** to meet the body's higher oxygen demands.
*Pregnancy*
- **Pregnancy** leads to significant **physiological adaptations** to accommodate the growing fetus, including a substantial increase in **blood volume**.
- This increased blood volume and cardiac output result in an **increase in stroke volume** to maintain adequate perfusion for both mother and fetus.
*Digitalis*
- **Digitalis** is a cardiac glycoside that **increases intracellular calcium** in myocardial cells, enhancing the **force of contraction**.
- This positive inotropic effect leads to an **increased stroke volume** by improving the heart's pumping efficiency.
Aging effects on cardiovascular system US Medical PG Question 6: A 58-year-old man presents to the emergency department following a fall while walking in a grocery store. He has a history of at least 6 previous collapses to the ground with no warning. When these episodes occur, he becomes pale, diaphoretic, and recovers quickly within a few seconds. These episodes always occur when he is standing. His past medical history is significant for type 2 diabetes mellitus, hypercholesterolemia, and one myocardial infarction. His medication list includes aspirin, clopidogrel, bisoprolol, metformin, rosuvastatin, and valsartan. Further history reveals that he has constipation, early satiety, and recently lost 2.2 kg (5 lb) of weight. While lying down, his blood pressure is 145/64 mm Hg and the heart rate is 112/min. After 2 minutes of standing, the blood pressure is 120/65 mm Hg and the heart rate is 112/min. A 12-lead ECG showed Q waves in leads II, III, and aVF. Laboratory results are given below:
Hemoglobin 13.8 g/dL
White blood cell count 8500/mm3
Platelets 250,000/mm3
Sodium 142 mEq/L
Potassium 4.4 mEq/L
Calcium 9.1 mg/dL
Creatinine 1.0 mg/dL
TSH 1.4 U/mL
HbA1c 10.2%
What additional clinical feature would most likely be present in this patient?
- A. Heat intolerance
- B. Diplopia
- C. Erectile dysfunction (Correct Answer)
- D. Lipodystrophy
- E. Amyotrophy
Aging effects on cardiovascular system Explanation: ***Erectile dysfunction***
- The patient exhibits features of **diabetic autonomic neuropathy**, including **orthostatic hypotension with absent compensatory tachycardia** (heart rate remains 112/min despite BP drop from 145/64 to 120/65 on standing - this failure of baroreceptor reflex is pathognomonic for autonomic dysfunction), **gastroparesis** (early satiety, weight loss, constipation), and poor glycemic control (HbA1c 10.2%).
- **Erectile dysfunction** is a common manifestation of **diabetic autonomic neuropathy** due to impaired parasympathetic innervation affecting penile blood flow and nerve-mediated vasodilation.
*Heat intolerance*
- This is typically associated with **hyperthyroidism** or sometimes with impaired sweating from **sudomotor autonomic neuropathy**, but it's not the most direct or common manifestation given the other symptoms.
- The patient's TSH is normal (1.4 U/mL), ruling out a thyroid cause.
*Diplopia*
- While possible in diabetes due to **cranial nerve palsies** (e.g., CN III, IV, VI neuropathy), it is not a direct or prominent symptom of *autonomic* neuropathy.
- Diplopia would indicate a *somatic* neuropathy affecting ocular muscles, rather than an autonomic dysfunction.
*Lipodystrophy*
- This condition refers to abnormal fat distribution and is often seen with **insulin therapy** (at injection sites) or certain genetic syndromes, not directly related to diabetic autonomic neuropathy.
- There is no information to suggest the patient is on insulin, and lipodystrophy does not explain the cluster of autonomic symptoms.
*Amyotrophy*
- **Diabetic amyotrophy** (proximal motor neuropathy) primarily causes **muscle weakness** and **wasting**, typically in the quadriceps, and severe pain in the affected areas.
- This is a *somatic* neuropathy, affecting motor nerves, rather than the constellation of autonomic symptoms presented by the patient.
Aging effects on cardiovascular system US Medical PG Question 7: A 27-year-old man is running on the treadmill at his gym. His blood pressure prior to beginning his workout was 110/72. Which of the following changes in his cardiovascular system may be seen in this man now that he is exercising?
- A. Decreased blood pressure
- B. Decreased systemic vascular resistance (Correct Answer)
- C. Increased systemic vascular resistance
- D. Decreased stroke volume
- E. Decreased heart rate
Aging effects on cardiovascular system Explanation: ***Decreased systemic vascular resistance***
- During dynamic exercise, metabolic vasodilation in exercising muscles leads to a substantial **decrease in systemic vascular resistance (SVR)** to accommodate increased blood flow.
- This vasodilation overrides the systemic vasoconstriction driven by the sympathetic nervous system, resulting in a net decrease in overall SVR.
*Decreased blood pressure*
- While SVR decreases, **systolic blood pressure typically increases** during exercise due to increased cardiac output.
- **Diastolic blood pressure** usually remains stable or may slightly decrease, but overall blood pressure, specifically the mean arterial pressure, is generally maintained or elevated.
*Increased systemic vascular resistance*
- This is incorrect as **vasodilation in active muscles** causes a significant decrease in overall systemic vascular resistance.
- An increase in SVR would typically hinder blood flow to working muscles and is not a characteristic cardiovascular response to dynamic exercise.
*Decreased stroke volume*
- Stroke volume generally **increases significantly** during exercise due to enhanced venous return, increased contractility, and reduced afterload (from decreased SVR).
- A decreased stroke volume would limit cardiac output and exercise performance.
*Decreased heart rate*
- Heart rate **increases proportionally with exercise intensity** to boost cardiac output and oxygen delivery to active muscles.
- A decreased heart rate would counteract the body's physiological demand for increased blood flow during physical activity.
Aging effects on cardiovascular system US Medical PG Question 8: An 85-year-old man presents to his primary care provider after feeling "lightheaded." He said he helped his wife in the garden for the first time, but that while moving some bags of soil he felt like he was going to faint. He had a big breakfast of oatmeal and eggs prior to working in the garden. He has no significant past medical history and takes a baby aspirin daily. Physical exam reveals an elderly, well-nourished, well-built man with no evidence of cyanosis or tachypnea. Vital signs show normal temperature, BP 150/70, HR 80, RR 18. Cardiac exam reveals crescendo-decrescendo systolic murmur. What is the most likely cause of this patient's diagnosis?
- A. Infection
- B. Atherosclerosis
- C. Calcification (Correct Answer)
- D. Congenital defect
- E. Malnutrition
Aging effects on cardiovascular system Explanation: ***Calcification***
- The patient's age (85 years old) and the presence of a **crescendo-decrescendo systolic murmur** strongly suggest **aortic stenosis**. The most common cause of aortic stenosis in the elderly is **degenerative calcification** of the aortic valve.
- His **lightheadedness** upon exertion (moving bags of soil) is consistent with symptoms of aortic stenosis, as the narrowed valve restricts blood flow to the brain during increased demand.
*Infection*
- While infective endocarditis can cause new murmurs and systemic symptoms, it typically presents with **fever**, **fatigue**, and signs of infection, which are not described in this patient.
- The type of murmur in endocarditis is often **regurgitant** or can have a rapidly changing character, rather than the classic crescendo-decrescendo systolic murmur of aortic stenosis.
*Atherosclerosis*
- Although atherosclerosis is a common process in the elderly and can affect large vessels, it does **not** directly cause aortic stenosis. The valve pathology is primarily a **degenerative calcific process** rather than atherosclerotic plaque formation.
- While atherosclerosis and calcific aortic stenosis share some risk factors (age, hypertension, hyperlipidemia), the mechanism of valve narrowing is through progressive **calcification and fibrosis** of the valve leaflets, not atheroma formation.
*Congenital defect*
- While a **bicuspid aortic valve** is a common congenital defect that can lead to aortic stenosis, symptoms typically present much earlier in life (40s-60s) due to accelerated calcification.
- An 85-year-old presenting with new symptoms is more likely to have age-related **degenerative calcific aortic stenosis** rather than a late manifestation of an undiagnosed congenital defect.
*Malnutrition*
- Malnutrition is not directly associated with the development of a crescendo-decrescendo systolic murmur or **aortic stenosis**.
- While severe malnutrition can cause various systemic issues, it does not explain the specific cardiac findings and exertional symptoms described in this well-nourished patient.
Aging effects on cardiovascular system US Medical PG Question 9: A 33-year-old female presents to her primary care physician complaining of heat intolerance and difficulty sleeping over a one month period. She also reports that she has lost 10 pounds despite no changes in her diet or exercise pattern. More recently, she has developed occasional unprovoked chest pain and palpitations. Physical examination reveals a nontender, mildly enlarged thyroid gland. Her patellar reflexes are 3+ bilaterally. Her temperature is 99°F (37.2°C), blood pressure is 135/85 mmHg, pulse is 105/min, and respirations are 18/min. Laboratory analysis is notable for decreased TSH. Which of the following pathophysiologic mechanisms contributed to the cardiovascular symptoms seen in this patient?
- A. Increased numbers of α1-adrenergic receptors
- B. Increased sensitivity of β1-adrenergic receptors (Correct Answer)
- C. Decreased numbers of α2-adrenergic receptors
- D. Decreased sensitivity of β2-adrenergic receptors
- E. Decreased numbers of α1-adrenergic receptors
Aging effects on cardiovascular system Explanation: ***Increased sensitivity of β1-adrenergic receptors***
- Elevated thyroid hormone levels in **hyperthyroidism** increase the expression and sensitivity of **β1-adrenergic receptors** in the heart.
- This heightened sensitivity leads to an exaggerated response to **catecholamines**, contributing to symptoms like **tachycardia**, **palpitations**, and **chest pain**.
*Increased numbers of α1-adrenergic receptors*
- While thyroid hormones can influence adrenergic receptor expression, the primary cardiovascular effects of hyperthyroidism are mediated by **β-adrenergic receptors**, not α1.
- An increase in α1-adrenergic receptors would primarily lead to **vasoconstriction**, which is not the predominant cardiovascular pathology in hyperthyroidism where **increased heart rate** and contractility are key.
*Decreased numbers of α1-adrenergic receptors*
- This would generally lead to **vasodilation** and possibly hypotension, which is contrary to the **palpitations** and **chest pain** seen in the patient's hyperthyroid state.
- Hyperthyroidism tends to increase cardiac output and contractility rather than decrease peripheral resistance through reduced α1 receptors.
*Decreased numbers of α2-adrenergic receptors*
- **Alpha-2 adrenergic receptors** are often involved in **negative feedback** to reduce sympathetic outflow from the central nervous system.
- A decrease in these receptors would theoretically increase sympathetic activity, but the direct cardiovascular effects in hyperthyroidism are primarily due to altered **β-adrenergic receptor** function.
*Decreased sensitivity of β2-adrenergic receptors*
- **Beta-2 adrenergic receptors** are primarily found in smooth muscle (e.g., bronchioles, blood vessels) and mediate **vasodilation and bronchodilation**.
- Decreased sensitivity would lead to **vasoconstriction** and **bronchoconstriction**, which are not characteristic cardiovascular or pulmonary findings in hyperthyroidism.
Aging effects on cardiovascular system US Medical PG Question 10: A researcher is studying receptors that respond to epinephrine in the body and discovers a particular subset that is expressed in presynaptic adrenergic nerve terminals. She discovers that upon activation, these receptors will lead to decreased sympathetic nervous system activity. She then studies the intracellular second messenger changes that occur when this receptor is activated. She records these changes and begins searching for analogous receptor pathways. Which of the following receptors would cause the most similar set of intracellular second messenger changes?
- A. Muscarinic cholinoreceptors in the gastrointestinal tract
- B. Growth hormone receptors in the musculoskeletal system
- C. Vasopressin receptors in the kidney
- D. Dopamine receptors in the brain (Correct Answer)
- E. Aldosterone receptors in the kidney
Aging effects on cardiovascular system Explanation: ***Dopamine receptors in the brain***
- The described presynaptic receptors for epinephrine that decrease sympathetic activity are **alpha-2 adrenergic receptors**, which are **G inhibitory protein (Gi)-coupled receptors**.
- Gi-coupled receptors **inhibit adenylyl cyclase**, leading to a **decrease in intracellular cAMP**, a signaling pathway shared by **D2 dopamine receptors**.
*Muscarinic cholinoreceptors in the gastrointestinal tract*
- Most muscarinic receptors (M1 and M3) in the GI tract are **Gq-coupled**, leading to an **increase in phospholipase C (PLC) activity**, ultimately increasing intracellular **IP3 and DAG** and promoting smooth muscle contraction.
- This mechanism is distinct from the **Gi-mediated inhibition of cAMP** described for the presynaptic adrenergic receptor.
*Growth hormone receptors in the musculoskeletal system*
- Growth hormone receptors are **tyrosine kinase-associated receptors** (specifically, they are linked to **JAK/STAT pathways**), not G protein-coupled receptors.
- Their intracellular signaling involves **protein phosphorylation cascades**, which are fundamentally different from second messenger changes involving cAMP.
*Vasopressin receptors in the kidney*
- Vasopressin (ADH) acts on **V2 receptors** in the kidney, which are **G stimulatory protein (Gs)-coupled receptors**.
- Activation of V2 receptors leads to an **increase in adenylyl cyclase activity** and thus an **increase in intracellular cAMP**, the opposite effect of the described Gi-coupled receptor.
*Aldosterone receptors in the kidney*
- Aldosterone receptors are **intracellular steroid hormone receptors** that directly bind to DNA and regulate gene transcription.
- They do not engage in rapid intracellular second messenger changes like G protein-coupled receptors, but rather alter **protein synthesis** over hours to days.
More Aging effects on cardiovascular system US Medical PG questions available in the OnCourse app. Practice MCQs, flashcards, and get detailed explanations.
