Cellular mechanism of hormone action | Endocrine system physiology | NCLEX-RN | Khan Academy
Summary
TLDRThis video explains how hormones interact with their target cells through two primary mechanisms: secondary messengers and primary messengers. In the secondary messenger system, hormones bind to receptors on the cell surface, triggering a cascade of reactions that amplify the signal inside the cell, often involving molecules like cAMP. In contrast, steroid and thyroid hormones can cross the cell membrane and directly influence gene expression or protein production inside the cell. The video offers a clear understanding of these complex processes that regulate many bodily functions, emphasizing how hormones communicate efficiently with cells to achieve desired effects.
Takeaways
- 😀 Hormones interact with specific receptors on target cells to initiate cellular responses.
- 😀 The hormone-receptor interaction can trigger one of two main mechanisms of action: secondary messengers or primary messengers.
- 😀 Secondary messengers involve a cascade of reactions that amplify the hormonal signal inside the cell.
- 😀 The G protein is a key player in the secondary messenger system, exchanging GDP for GTP upon activation.
- 😀 Adenylate cyclase is activated by the G protein and converts ATP into cyclic AMP (cAMP), which serves as a secondary messenger.
- 😀 cAMP activates proteins inside the cell to initiate the desired physiological effect, such as insulin release or glucose uptake.
- 😀 Signal amplification means that even a small amount of hormone can have a large cellular effect due to the cascade of reactions.
- 😀 Secondary messengers are typically used by hormones like peptides and catecholamines that cannot cross the cell membrane.
- 😀 Primary messengers are used by lipid-based hormones, such as steroids and thyroid hormones, which can cross the cell membrane directly.
- 😀 When primary messengers bind to receptors in the cytoplasm or nucleus, they directly affect gene transcription or protein synthesis.
- 😀 The primary messenger system is simpler than the secondary messenger system, involving fewer steps and direct interaction with the target cell’s interior.
Q & A
What is the primary role of hormones in the body?
-Hormones act as signaling molecules that travel through the bloodstream to target cells, where they bind to specific receptors to initiate various cellular processes and responses.
What are the two main mechanisms of hormone action on target cells?
-The two main mechanisms are secondary messengers and primary messengers. Secondary messengers amplify the signal inside the cell, while primary messengers involve direct interaction with intracellular receptors.
How do secondary messengers work in hormone signaling?
-Secondary messengers are triggered when a hormone binds to a receptor on the cell surface, activating a G-protein, which then activates an enzyme called adenylate cyclase. This enzyme converts ATP into cyclic AMP (cAMP), which amplifies the signal and triggers a response inside the cell.
What role does the G-protein play in the secondary messenger system?
-The G-protein is activated when the hormone binds to its receptor. It swaps GDP for GTP, which enables it to interact with adenylate cyclase, initiating the conversion of ATP into cAMP, a secondary messenger.
What is the significance of signal amplification in hormone signaling?
-Signal amplification allows a small amount of hormone to trigger a large cellular response. One hormone molecule can lead to the production of many cAMP molecules, which enhances the effect of the signal inside the cell.
Why can't certain hormones, like peptide hormones, directly cross the cell membrane?
-Peptide hormones and similar molecules are typically hydrophilic (water-soluble) and cannot easily pass through the lipid-based cell membrane. Instead, they rely on secondary messengers to transmit their signal.
How do steroid and thyroid hormones differ from peptide hormones in terms of their mechanism of action?
-Steroid and thyroid hormones are lipid-soluble and can cross the cell membrane directly. They bind to intracellular receptors and affect gene expression or protein synthesis, bypassing the need for secondary messengers.
What is the role of cAMP in hormone action?
-cAMP acts as a secondary messenger within the cell, activating proteins that initiate the desired cellular response. It is produced when adenylate cyclase converts ATP into cAMP in response to hormone binding.
What is the function of adenylate cyclase in the secondary messenger pathway?
-Adenylate cyclase is an enzyme in the cell membrane that, when activated by a G-protein, converts ATP into cAMP, which amplifies the signal and triggers a response inside the cell.
Why do steroid and thyroid hormones have fewer steps in their signaling process compared to other hormones?
-Steroid and thyroid hormones are lipid-soluble and can cross the cell membrane on their own. This direct access to the cell's interior allows them to bind to receptors inside the cell and affect gene expression or protein synthesis without needing secondary messengers.
Outlines
This section is available to paid users only. Please upgrade to access this part.
Upgrade NowMindmap
This section is available to paid users only. Please upgrade to access this part.
Upgrade NowKeywords
This section is available to paid users only. Please upgrade to access this part.
Upgrade NowHighlights
This section is available to paid users only. Please upgrade to access this part.
Upgrade NowTranscripts
This section is available to paid users only. Please upgrade to access this part.
Upgrade NowBrowse More Related Video
110 Signaling Examples
Video Animasi Mekanisme Kerja Hormon
Endocrinology | Receptor Pathways
Signal Transduction AP Biology
[#2] INTRODUÇÃO SISTEMA ENDÓCRINO: SÃntese, secreção, transporte e mecanismos de ação dos hormônios
G-Protein & G-Protein-Coupled Receptors (GPCR) | Cell Surface Receptor | Physiology | Endocrinology
5.0 / 5 (0 votes)
