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Intracellular Receptors

Do you remember what it was like to enter your teens? Can you recall the different changes that took place in your body? Puberty is a stage in our development in which a surge of hormones like testosterone and estrogen create massive changes in our bodies. 

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Intracellular Receptors

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Do you remember what it was like to enter your teens? Can you recall the different changes that took place in your body? Puberty is a stage in our development in which a surge of hormones like testosterone and estrogen create massive changes in our bodies.

Hormones are chemical signals produced in one part of the body and are transported to other parts of the body through the blood stream. How do these signals trigger changes, like the development of gonads and secondary sex characteristics?

Here, we will discuss what intracellular receptors are, how they are classified, and how they trigger various biological processes.

Cell signaling and intracellular receptors

Cells respond to signals from their environment through a process known as cell signaling. A signal is transmitted when a signaling molecule called a ligand binds to a receptor protein in the target cell. This signal leads to a specific cellular response such as cell division and cell death.

The receptors involved in cell signaling can be broadly classified into two types: cell-surface receptors and intracellular receptors.

Cell-surface receptors span the plasma membrane with each receptor having extracellular, transmembrane, and cytoplasmic regions. When a ligand binds to a cell-surface receptor, extracellular signals are transformed into intracellular signals in a process called signal transduction.

On the other hand, intracellular receptors (also known as internal receptors) are found inside the cell.

Intracellular receptors are globular proteins located inside the cell, rather than residing on a cell membrane.

They bind small hydrophobic or nonpolar ligands like steroid hormones, thyroid hormones, and vitamin D. Unlike cell-surface receptors, ligands that bind intracellular receptors can easily diffuse across the plasma membrane so they do not need to transmit the signal to other receptors or messengers via signal transduction. They can instead directly activate the intracellular receptor to effect cellular activation.

How do intracellular receptors function?

The stimulation of intracellular receptors typically results in modified transcription during gene expression.

Gene expression is the process by which information contained in a cell’s DNA is transformed into an amino acid sequence which ultimately becomes a protein. Transcription is a stage in gene expression in which the information contained in a cell’s DNA is copied into a type of RNA called messenger RNA (mRNA). The mRNA is used in protein synthesis.

While ligands are structurally diverse, intracellular receptors tend to share similar features because of their intrinsic transcription activity.

Intracellular receptors generally have three core domains: ligand-binding domain, a DNA-binding domain, and a transcription-activating domain.

  • The ligand-binding (or carboxy-terminus) domain is the part of the receptor that is responsible for binding with hormones and other ligands.

  • The DNA-binding domain consists of amino acids and is responsible for the receptor binding to segments of the DNA strand.

  • The transcription-activating (or amino-terminus) domain is involved in initiating transcription by interacting with components that participate in transcription.

Besides these three core domains, there are two other domains that are typically found in receptor proteins:

  • The nuclear localization sequence consists of short peptides. It facilitates the translocation of proteins from the cytoplasm to the nucleus.

  • The dimerization domain is involved in bringing two receptors together as a dimer so that it can bind DNA.

What are the types of intracellular receptors and how do they work?

Intracellular receptors can be subdivided into two types: type I or cytoplasmic receptors and type II or nuclear receptors.

Type I intracellular receptors

Type I intracellular receptors (also known as cytoplasmic receptors) are anchored in the cytoplasm of a cell by chaperone proteins. These proteins also keep the receptors in an inactive state.

When a ligand binds with a type I intracellular receptor (forming the "ligand-receptor complex"), the chaperone proteins dissociate from the receptor, allowing the receptor to form a homodimer with other receptors and to undergo conformational change such that a nuclear localization sequence is exposed.

This transformation allows the receptor to enter the nucleus of the cell. Then, the ligand-receptor complex binds to specific regulatory sections in chromosomal DNA through its DNA-binding region and prompts the initiation of transcription.

Examples of type I intracellular receptors include androgen receptors and progesterone receptors. Testosterone and dihydrotestosterone (DHT) are ligands that bind androgen receptors in the cytoplasm and translocate them to the nucleus, initiating cellular processes like protein synthesis, cell growth, gonad formation, and development of secondary sex characteristics (Fig. 1).

Intracellular Receptors Figure 1: Androgen Receptors | StudySmarterFig. 1 Testosterone and DHT bind androgen receptors in the cytoplasm. They are then translocated to the nucleus where they will alter transcription and cause biological changes such as the development of secondary sex characteristics.

On the other hand, the binding of ligand progesterone to progesterone receptors in the cytoplasm activates transcription that affects different biological processes including the menstrual cycle.

Type II intracellular receptors

Type II intracellular receptors (also known as nuclear receptors) are found in the nucleus of a cell. Because they are already in the nucleus, type II intracellular receptors can directly modify transcription without undergoing translocation. They typically form heterodimers with other nuclear receptors. Examples of type II intracellular receptors include retinoic acid receptors and thyroid receptors.

Thyroid hormone receptors play a role in regulating metabolism and cardiac function. When thyroid receptors are under-stimulated (for example, when a person suffers from hypothyroidism) their metabolism slows down which manifests in symptoms including fatigue, lethargy, weight gain, and reduced heart rate. When thyroid receptors are overstimulated (for example, when a person suffers from hyperthyroidism), their metabolism increases, leading to nervousness, weight loss, increased heart rate, among others.

A protein homodimer consists of two identical proteins, whereas a protein heterodimer is formed by two proteins with different composition in terms of the order, number, or kind of amino acids they contain.

What are other examples of intracellular receptors?

In this section, we’ll discuss examples of intracellular hormone receptors and nitric oxide receptors.

Intracellular hormone receptors

Hormones are signaling molecules that are created in one region of the body and have the ability to cause biological changes in other sections of the body.

Some hormones including peptide and amino acid-derived hormones are water-soluble so they cannot cross the cell membrane. These hormones interact with cell-surface receptors. On the other hand, small and lipid-soluble, nonpolar hormones like steroid hormones and gas hormones can move across the plasma membrane and bind to intracellular hormone receptors.

Lipid-soluble hormones like steroid hormones can pass through the membrane of an endocrine cell. Outside the cell, these hormones bind to transport proteins which help them travel through the bloodstream.

Once they reach the target cell, the hormones separate from the transport proteins, diffuse through the plasma membrane, and bind to intracellular receptors in the cytoplasm or nucleus. In doing so, it activates the cell signaling pathways that regulate the transcription of specific genes in a cell’s DNA. The hormone-receptor complex regulates transcription by increasing or lowering the production of mRNA molecules from certain genes. This, in turn, alters the proteins synthesized during gene expression.

Aldosterone is a good illustration of how steroid hormones function (Fig. 2). This hormone is produced by cells of the adrenal gland, which, in humans, is an organ located above the kidney.

Intracellular Receptors Figure 2: Aldosterone receptor | StudySmarterFig. 2 The aldosterone receptor shows how most steroid hormone receptors function.

The nitric oxide (NO) / cyclic guanosine monosphosphate (cGMP) signaling pathway

The NO/cGMP pathway can be found in mature leukocytes and platelets. It consists of soluble guanylyl cyclase (GC) which functions as the intracellular receptor for nitric oxide.

When NO binds to GC, NO undergoes conformational change which activates the GC and converts guanosine triphosphate (GTP) to cGMP. The production of cGMP then triggers the activation of the cGMP-dependent protein kinase which, in turn, phosphorylates various substrates and participates in regulating the adhesion and aggregation of platelets.

Leukocytes are white blood cells that play an integral role in fighting infection and other diseases.

Platelets are fragments of large cells that can be found in the bloodstream. These play a role in the formation of blood clots that slow down or stop bleeding.

Phosphorylation is the process of adding phosphate groups.

Intracellular Receptors - Key takeaways

  • Rather than residing on a cell membrane, intracellular receptors are globular proteins located inside the cell. Intracellular receptors are receptors found in the cytoplasm or in the nucleus.
  • Intracellular receptors bind small hydrophobic or nonpolar ligands like steroid hormones, thyroid hormones, and vitamin D.
  • Unlike cell-surface receptors, intracellular receptors can easily diffuse across the plasma membrane so they do not need to transmit the signal to other receptors or messengers via signal transduction.
  • The stimulation of intracellular receptors typically results in modified transcription during gene expression.
  • Intracellular receptors generally have three core domains: ligand-binding domain, a DNA-binding domain, and a transcription-activating domain.

References

  1. Zedalis, Julianne, et al. Advanced Placement Biology for AP Courses Textbook. Texas Education Agency.
  2. Reece, Jane B., et al. Campbell Biology. Eleventh ed., Pearson Higher Education, 2016
  3. Sever, Richard, and Christopher K. Glass. “Signaling by Nuclear Receptors - PMC.” PubMed Central (PMC), www.ncbi.nlm.nih.gov, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3578364/. Accessed 15 July 2022.
  4. Chigaev, Alexandre, et al. “Nitric Oxide/cGMP Pathway Signaling Actively down-Regulates Α4β1-Integrin Affinity: An Unexpected Mechanism for Inducing Cell de-Adhesion - BMC Immunology.” BioMed Central, bmcimmunol.biomedcentral.com, 17 May 2011, https://bmcimmunol.biomedcentral.com/articles/10.1186/1471-2172-12-28.
  5. “Cell Signalling.” Cell Signalling, www.open.edu, https://www.open.edu/openlearn/science-maths-technology/cell-signalling/content-section-2.5. Accessed 15 July 2022.
  6. “Biology, Animal Structure and Function, The Endocrine System, How Hormones Work.” OERTX Repository, oertx.highered.texas.gov, https://oertx.highered.texas.gov/courseware/lesson/1802/overview. Accessed 15 July 2022.
  7. Mechanism of Action: Hormones with Intracellular Receptors. rabowen.org, https://rabowen.org/hbooks/pathphys/endocrine/moaction/intracell.html. Accessed 15 July 2022.
  8. Merkey, Becky. “15. Nuclear Receptors – Principles of Pharmacology – Study Guide.” 15. Nuclear Receptors – Principles of Pharmacology – Study Guide, edited by Dr. Esam El-Fakahany, open.lib.umn.edu, https://open.lib.umn.edu/pharmacology/chapter/nuclear-receptors/. Accessed 15 July 2022.

Frequently Asked Questions about Intracellular Receptors

Hormones like steroid and gas hormones which are lipid-soluble have intracellular receptors.

Ligands for intracellular receptors tend to be small, hydrophobic, and nonpolar. 

An intracellular receptor is found inside the cell, either in the cytoplasm or in the nucleus, while an extracellular or cell-surface receptor is found in or on the plasma membrane. The former interacts with hydrophobic, nonpolar ligands, while the latter interacts with hydrophilic and polar ligands. 

Intracellular receptors work by binding to a ligand which activates them and causes them to undergo conformational change. If they weren't already there, the receptors are then translocated to the nucleus where they will bind to DNA. 

Intracellular receptors are globular proteins located inside the cell, rather than residing on a cell membrane. 

Final Intracellular Receptors Quiz

Intracellular Receptors Quiz - Teste dein Wissen

Question

Where are intracellular receptors found?

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Answer

Cytoplasm

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Question

Intracellular receptors typically bind what type of ligands?

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Answer

Hydrophobic ligands

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Question

Steroid hormones are __.

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Answer

Hydrophobic

Show question

Question

Amino-acid derived hormones are __.

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Answer

Hydrophilic

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Question

Which of the following ligands bind to intracellular receptors?

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Answer

Steroid hormones

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Question

What does the stimulation of intracellular receptors typically result in?

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Answer

Alteration of mRNA transcription 

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Question

Describe the basic structure of an intracellular receptor.

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Answer


Intracellular receptors generally have three core domains: a ligand-binding domain, a DNA-binding domain, and a transcription-activating domain. 


Show question

Question

What are cytoplasmic receptors?

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Answer

Cytoplasmic receptors are a subset of intracellular receptors that are anchored in the cytoplasm by chaperone proteins. 

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Question

What are nuclear receptors?

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Answer

Nuclear receptors are a subset of intracellular receptors found in the nucleus even without the presence of a ligand. 

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Question

The intracellular receptor domain responsible for translocating the proteins to the nucleus is called __. 

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Answer

Nuclear localization sequence 

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Question

Describe how hormones alter gene expression through intracellular receptors. 

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Answer

Hormones diffuse through the plasma membrane and bind to intracellular receptors in the cytoplasm or nucleus. In doing so, it activates the cell signaling pathways that regulate the transcription of specific genes in a cell’s DNA. The hormone-receptor complex regulates transcription by increasing or lowering the production of mRNA molecules from certain genes. This, in turn, alters the proteins synthesized during gene expression

Show question

Question

Distinguish intracellular receptors from cell-surface receptors.

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Answer

Unlike cell-surface receptors, intracellular receptors can easily diffuse across the plasma membrane so they do not need to transmit the signal to other receptors or messengers via signal transduction. 

Show question

Question

Which types of receptors undergo signal transduction?

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Answer

Enzyme-linked receptors

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Question

What is the difference between cytoplasmic and nuclear receptors?

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Answer

Cytoplasmic receptors need to translocate to the nucleus after dissociating with chaperone proteins, while nuclear receptors are already in the nucleus even without the presence of a ligand.

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Question

What is the purpose of dimerization of intracellular receptors?

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Answer

Dimerization prepares the receptors for binding DNA.

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Test your knowledge with multiple choice flashcards

Where are intracellular receptors found?

Intracellular receptors typically bind what type of ligands?

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Flashcards in Intracellular Receptors15

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Where are intracellular receptors found?

Cytoplasm

Intracellular receptors typically bind what type of ligands?

Hydrophobic ligands

Steroid hormones are __.

Hydrophobic

Amino-acid derived hormones are __.

Hydrophilic

Which of the following ligands bind to intracellular receptors?

Steroid hormones

What does the stimulation of intracellular receptors typically result in?

Alteration of mRNA transcription 

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