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Cells & Oxygen Availability | Nobel Special | Episode 54 Bonus
Manage episode 243962197 series 1972891
Content provided by Kevin Patton. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Kevin Patton or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
Host Kevin Patton summarizes the 2019 Nobel Prize in Physiology or Medicine to three scientists "for their discoveries of how cells sense and adapt to oxygen availability." A special bonus episode.
00:41 | Introduction to Bonus Episode 02:00 | Sponsored by HAPS 02:24 | Summary of Discovery 04:13 | Oxygen at Center Stage 05:24 | HIF Enters the Scene08:08 | Sponsored by AAA 08:26 | VHL - An Unexpected Partner 11:37 | Oxygen sHIFts the Balance 13:20 | Oxygen Shapes Physiology & Pathology 15:15 | Sponsored by HAPI Online Graduate Program 15:48 | Our Course 23:46 | Staying Connected
If you cannot see or activate the audio player click here. Questions & Feedback: 1-833-LION-DEN (1-833-546-6336) Follow The A&P Professor on Twitter, Facebook, Blogger, Nuzzel, Tumblr, or Instagram!
Singing is like a celebration of oxygen. (Björk)
1 | Introduction to the Bonus Episode
1 minute
Kevin introduces the bonus episode, explaining that he's sharing the press release for the 2019 Nobel Prize in Physiology or Medicine. It's chunked for clarity.
Press release: The Nobel Prize in Physiology or Medicine 2019. NobelPrize.org. Nobel Media AB 2019. Mon. 7 Oct 2019.
2 | Sponsored by HAPS
2 minutes
The Human Anatomy & Physiology Society (HAPS) is a sponsor of this podcast. You can help appreciate their support by clicking the link below and checking out the many resources and benefits found there. There are a bunch of 1-day regional workshops scattered all over the continent. There's probably one near you coming up this year (or next)!
3 | Summary of the Discovery
2 minutes
- 2019-10-07: The Nobel Assembly at Karolinska Institutet has today decided to award the 2019 Nobel Prize in Physiology or Medicine jointly to William G. Kaelin Jr., Sir Peter J. Ratcliffe, and Gregg L. Semenza for their discoveries of how cells sense and adapt to oxygen availability.
- They identified molecular machinery that regulates the activity of genes in response to varying levels of oxygen.
4 | Oxygen at Center Stage
1 minute
During evolution, mechanisms developed to ensure a sufficient supply of oxygen to tissues and cells.
5 | HIF Enters the Scene
3 minutes
- Gregg Semenza studied the EPO (erythropoietin) gene and how it is regulated by varying oxygen levels.
- In cultured liver cells he discovered a protein complex that binds to the identified DNA segment in an oxygen-dependent manner. He called this complex the hypoxia-inducible factor (HIF).
- HIF was found to consist of two different DNA-binding proteins, so called transcription factors, now named HIF-1α and ARNT.
6 | Sponsored by AAA
0.5 minutes
- A searchable transcript for this episode, as well as the captioned audiogram of this episode, are sponsored by the American Association for Anatomy (AAA) at anatomy.org.
7 | VHL - An Unexpected Partner
3 minutes
- When oxygen levels are high, cells contain very little HIF-1α. However, when oxygen levels are low, the amount of HIF-1α increases so that it can bind to and thus regulate the EPO gene as well as other genes with HIF-binding DNA segments.
- See figure (if you can't see it, go to https://my-ap.us/35fm0O6).
- At about the same time as Semenza and Ratcliffe were exploring the regulation of the EPO gene, cancer researcher William Kaelin, Jr. was researching an inherited syndrome, von Hippel-Lindau’s disease (VHL disease).
- VHL is part of a complex that labels proteins with ubiquitin, marking them for degradation in the proteasome.
- Ratcliffe and his research group then made a key discovery: demonstrating that VHL can physically interact with HIF-1α and is required for its degradation at normal oxygen levels. This conclusively linked VHL to HIF-1α.
When oxygen levels are low (hypoxia), HIF-1α is protected from degradation and accumulates in the nucleus, where it associates with ARNT and binds to specific DNA sequences (HRE) in hypoxia-regulated genes (1). At normal oxygen levels, HIF-1α is rapidly degraded by the proteasome (2). Oxygen regulates the degradation process by the addition of hydroxyl groups (OH) to HIF-1α (3). The VHL protein can then recognize and form a complex with HIF-1α leading to its degradation in an oxygen-dependent manner (4). https://my-ap.us/35fm0O6
8 | Oxygen sHIFts the Balance
1.5 minutes
- It was also shown that the gene activating function of HIF-1α was regulated by oxygen-dependent hydroxylation.
- The Nobel Laureates had now elucidated the oxygen sensing mechanism and had shown how it works.
9 | Oxygen Shapes Physiology & Pathology
2 minutes
- Thanks to the groundbreaking work of these Nobel Laureates, we know much more about how different oxygen levels regulate fundamental physiological processes.
- For example, muscles, blood vessel formation, immunity, RBC production, placenta development, etc.
- Oxygen sensing is central to a large number of diseases.
- For example, patients with chronic renal failure often suffer from severe anemia due to decreased EPO expression. See figure (if you cant's see it, go to https://my-ap.us/2LW2cIb)
The awarded mechanism for oxygen sensing has fundamental importance in physiology, for example for our metabolism, immune response and ability to adapt to exercise. Many pathological processes are also affected. Intensive efforts are ongoing to develop new drugs that can either inhibit or activate the oxygen-regulated machinery for treatment of anemia, cancer and other diseases. https://my-ap.us/2LW2cIb
10 | Sponsored by HAPI Online Graduate Program1 minute
The Master of Science in Human Anatomy & Physiology Instruction—the MS-HAPI—is a graduate program for A&P teachers. A combination of science courses (enough to qualify you to teach at the college level) and courses in contemporary instructional practice, this program helps you power up your teaching. Kevin Patton is a faculty member in this program. Check it out!
11 | Our Course
8 minutes
- This set of discoveries touches on many of the core concepts of our course (the big ideas of our story of the human body).
- Nobel Prizes are a cultural touchstone that students can related to, and thus increase interest and motivation.
- Nobel Prizes can be a starting point for discussion the role of science in the context of society and culture.
- Additional resources:
- Main page for this prize: my-ap.us/31Wuc3Z
- Publications
Semenza, G.L, Nejfelt, M.K., Chi, S.M. & Antonarakis, S.E. (1991). Hypoxia-inducible nuclear factors bind to an enhancer element located 3’ to the human erythropoietin gene. Proc Natl Acad Sci USA, 88, 5680-5684 my-ap.us/2ontmP8
Wang, G.L., Jiang, B.-H., Rue, E.A. & Semenza, G.L. (1995). Hypoxia-inducible factor 1 is a basic-helix-loop-helix-PAS heterodimer regulated by cellular O2 tension. Proc Natl Acad Sci USA, 92, 5510-5514 my-ap.us/2IxLUD5
Maxwell, P.H., Wiesener, M.S., Chang, G.-W., Clifford, S.C., Vaux, E.C., Cockman, M.E., Wykoff, C.C., Pugh, C.W., Maher, E.R. & Ratcliffe, P.J. (1999). The tumour suppressor protein VHL targets hypoxia-inducible factors for oxygen-dependent proteolysis. Nature, 399, 271-275 my-ap.us/2op4XbP
Mircea, I., Kondo, K., Yang, H., Kim, W., Valiando, J., Ohh, M., Salic, A., Asara, J.M., Lane, W.S. & Kaelin Jr., W.G. (2001) HIFa targeted for VHL-mediated destruction by proline hydroxylation: Implications for O2 sensing. Science, 292, 464-468 my-ap.us/2IxIf8t
Jakkola, P., Mole, D.R., Tian, Y.-M., Wilson, M.I., Gielbert, J., Gaskell, S.J., von Kriegsheim, A., Heberstreit, H.F., Mukherji, M., Schofield, C.J., Maxwell, P.H., Pugh, C.W. & Ratcliffe, P.J. (2001). Targeting of HIF-α to the von Hippel-Lindau ubiquitylation complex by O2-regulated prolyl hydroxylation. Science, 292, 468-472 my-ap.us/35i4wR9
If the hyperlinks here are not active, go to TAPPradio.org to find the episode page.
- More details at the episode page.
- Transcript available at the script page.
- Listen to any episode on your Alexa device.
- Need help accessing resources locked behind a paywall? Check out this advice from Episode 32 to get what you need! https://youtu.be/JU_l76JGwVw?t=440
Sponsors Transcript and captions for this episode are supported by the American Association for Anatomy. anatomy.org The Human Anatomy & Physiology Society also provides marketing support for this podcast. theAPprofessor.org/haps Distribution of this episode is supported by NYCC's online graduate program in Human Anatomy & Physiology Instruction (HAPI) nycc.edu/hapi Clicking on sponsor links helps let them know you appreciate their support of this podcast! Referrals also help defray podcasting expenses. Amazon TextExpander Snagit & Camtasia The A&P Professor Logo Items Follow The A&P Professor on Twitter, Facebook, Blogger, Nuzzel, Tumblr, or Instagram! The A&P Professor® and Lion Den® are registered trademarks of Lion Den Inc. (Kevin Patton)
186 episodes
Share
Manage episode 243962197 series 1972891
Content provided by Kevin Patton. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Kevin Patton or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
Host Kevin Patton summarizes the 2019 Nobel Prize in Physiology or Medicine to three scientists "for their discoveries of how cells sense and adapt to oxygen availability." A special bonus episode.
00:41 | Introduction to Bonus Episode 02:00 | Sponsored by HAPS 02:24 | Summary of Discovery 04:13 | Oxygen at Center Stage 05:24 | HIF Enters the Scene08:08 | Sponsored by AAA 08:26 | VHL - An Unexpected Partner 11:37 | Oxygen sHIFts the Balance 13:20 | Oxygen Shapes Physiology & Pathology 15:15 | Sponsored by HAPI Online Graduate Program 15:48 | Our Course 23:46 | Staying Connected
If you cannot see or activate the audio player click here. Questions & Feedback: 1-833-LION-DEN (1-833-546-6336) Follow The A&P Professor on Twitter, Facebook, Blogger, Nuzzel, Tumblr, or Instagram!
Singing is like a celebration of oxygen. (Björk)
1 | Introduction to the Bonus Episode
1 minute
Kevin introduces the bonus episode, explaining that he's sharing the press release for the 2019 Nobel Prize in Physiology or Medicine. It's chunked for clarity.
Press release: The Nobel Prize in Physiology or Medicine 2019. NobelPrize.org. Nobel Media AB 2019. Mon. 7 Oct 2019.
2 | Sponsored by HAPS
2 minutes
The Human Anatomy & Physiology Society (HAPS) is a sponsor of this podcast. You can help appreciate their support by clicking the link below and checking out the many resources and benefits found there. There are a bunch of 1-day regional workshops scattered all over the continent. There's probably one near you coming up this year (or next)!
3 | Summary of the Discovery
2 minutes
- 2019-10-07: The Nobel Assembly at Karolinska Institutet has today decided to award the 2019 Nobel Prize in Physiology or Medicine jointly to William G. Kaelin Jr., Sir Peter J. Ratcliffe, and Gregg L. Semenza for their discoveries of how cells sense and adapt to oxygen availability.
- They identified molecular machinery that regulates the activity of genes in response to varying levels of oxygen.
4 | Oxygen at Center Stage
1 minute
During evolution, mechanisms developed to ensure a sufficient supply of oxygen to tissues and cells.
5 | HIF Enters the Scene
3 minutes
- Gregg Semenza studied the EPO (erythropoietin) gene and how it is regulated by varying oxygen levels.
- In cultured liver cells he discovered a protein complex that binds to the identified DNA segment in an oxygen-dependent manner. He called this complex the hypoxia-inducible factor (HIF).
- HIF was found to consist of two different DNA-binding proteins, so called transcription factors, now named HIF-1α and ARNT.
6 | Sponsored by AAA
0.5 minutes
- A searchable transcript for this episode, as well as the captioned audiogram of this episode, are sponsored by the American Association for Anatomy (AAA) at anatomy.org.
7 | VHL - An Unexpected Partner
3 minutes
- When oxygen levels are high, cells contain very little HIF-1α. However, when oxygen levels are low, the amount of HIF-1α increases so that it can bind to and thus regulate the EPO gene as well as other genes with HIF-binding DNA segments.
- See figure (if you can't see it, go to https://my-ap.us/35fm0O6).
- At about the same time as Semenza and Ratcliffe were exploring the regulation of the EPO gene, cancer researcher William Kaelin, Jr. was researching an inherited syndrome, von Hippel-Lindau’s disease (VHL disease).
- VHL is part of a complex that labels proteins with ubiquitin, marking them for degradation in the proteasome.
- Ratcliffe and his research group then made a key discovery: demonstrating that VHL can physically interact with HIF-1α and is required for its degradation at normal oxygen levels. This conclusively linked VHL to HIF-1α.
When oxygen levels are low (hypoxia), HIF-1α is protected from degradation and accumulates in the nucleus, where it associates with ARNT and binds to specific DNA sequences (HRE) in hypoxia-regulated genes (1). At normal oxygen levels, HIF-1α is rapidly degraded by the proteasome (2). Oxygen regulates the degradation process by the addition of hydroxyl groups (OH) to HIF-1α (3). The VHL protein can then recognize and form a complex with HIF-1α leading to its degradation in an oxygen-dependent manner (4). https://my-ap.us/35fm0O6
8 | Oxygen sHIFts the Balance
1.5 minutes
- It was also shown that the gene activating function of HIF-1α was regulated by oxygen-dependent hydroxylation.
- The Nobel Laureates had now elucidated the oxygen sensing mechanism and had shown how it works.
9 | Oxygen Shapes Physiology & Pathology
2 minutes
- Thanks to the groundbreaking work of these Nobel Laureates, we know much more about how different oxygen levels regulate fundamental physiological processes.
- For example, muscles, blood vessel formation, immunity, RBC production, placenta development, etc.
- Oxygen sensing is central to a large number of diseases.
- For example, patients with chronic renal failure often suffer from severe anemia due to decreased EPO expression. See figure (if you cant's see it, go to https://my-ap.us/2LW2cIb)
The awarded mechanism for oxygen sensing has fundamental importance in physiology, for example for our metabolism, immune response and ability to adapt to exercise. Many pathological processes are also affected. Intensive efforts are ongoing to develop new drugs that can either inhibit or activate the oxygen-regulated machinery for treatment of anemia, cancer and other diseases. https://my-ap.us/2LW2cIb
10 | Sponsored by HAPI Online Graduate Program1 minute
The Master of Science in Human Anatomy & Physiology Instruction—the MS-HAPI—is a graduate program for A&P teachers. A combination of science courses (enough to qualify you to teach at the college level) and courses in contemporary instructional practice, this program helps you power up your teaching. Kevin Patton is a faculty member in this program. Check it out!
11 | Our Course
8 minutes
- This set of discoveries touches on many of the core concepts of our course (the big ideas of our story of the human body).
- Nobel Prizes are a cultural touchstone that students can related to, and thus increase interest and motivation.
- Nobel Prizes can be a starting point for discussion the role of science in the context of society and culture.
- Additional resources:
- Main page for this prize: my-ap.us/31Wuc3Z
- Publications
Semenza, G.L, Nejfelt, M.K., Chi, S.M. & Antonarakis, S.E. (1991). Hypoxia-inducible nuclear factors bind to an enhancer element located 3’ to the human erythropoietin gene. Proc Natl Acad Sci USA, 88, 5680-5684 my-ap.us/2ontmP8
Wang, G.L., Jiang, B.-H., Rue, E.A. & Semenza, G.L. (1995). Hypoxia-inducible factor 1 is a basic-helix-loop-helix-PAS heterodimer regulated by cellular O2 tension. Proc Natl Acad Sci USA, 92, 5510-5514 my-ap.us/2IxLUD5
Maxwell, P.H., Wiesener, M.S., Chang, G.-W., Clifford, S.C., Vaux, E.C., Cockman, M.E., Wykoff, C.C., Pugh, C.W., Maher, E.R. & Ratcliffe, P.J. (1999). The tumour suppressor protein VHL targets hypoxia-inducible factors for oxygen-dependent proteolysis. Nature, 399, 271-275 my-ap.us/2op4XbP
Mircea, I., Kondo, K., Yang, H., Kim, W., Valiando, J., Ohh, M., Salic, A., Asara, J.M., Lane, W.S. & Kaelin Jr., W.G. (2001) HIFa targeted for VHL-mediated destruction by proline hydroxylation: Implications for O2 sensing. Science, 292, 464-468 my-ap.us/2IxIf8t
Jakkola, P., Mole, D.R., Tian, Y.-M., Wilson, M.I., Gielbert, J., Gaskell, S.J., von Kriegsheim, A., Heberstreit, H.F., Mukherji, M., Schofield, C.J., Maxwell, P.H., Pugh, C.W. & Ratcliffe, P.J. (2001). Targeting of HIF-α to the von Hippel-Lindau ubiquitylation complex by O2-regulated prolyl hydroxylation. Science, 292, 468-472 my-ap.us/35i4wR9
If the hyperlinks here are not active, go to TAPPradio.org to find the episode page.
- More details at the episode page.
- Transcript available at the script page.
- Listen to any episode on your Alexa device.
- Need help accessing resources locked behind a paywall? Check out this advice from Episode 32 to get what you need! https://youtu.be/JU_l76JGwVw?t=440
Sponsors Transcript and captions for this episode are supported by the American Association for Anatomy. anatomy.org The Human Anatomy & Physiology Society also provides marketing support for this podcast. theAPprofessor.org/haps Distribution of this episode is supported by NYCC's online graduate program in Human Anatomy & Physiology Instruction (HAPI) nycc.edu/hapi Clicking on sponsor links helps let them know you appreciate their support of this podcast! Referrals also help defray podcasting expenses. Amazon TextExpander Snagit & Camtasia The A&P Professor Logo Items Follow The A&P Professor on Twitter, Facebook, Blogger, Nuzzel, Tumblr, or Instagram! The A&P Professor® and Lion Den® are registered trademarks of Lion Den Inc. (Kevin Patton)
186 episodes
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