Christine Holt Explained

Christine Holt
Birth Name:Christine Elizabeth Holt
Birth Date:1954 8, df=yes
Fields:Neuroscience
Workplaces:Professor of Developmental Neuroscience, University of Cambridge
Alma Mater:BSc in biological sciences, University of Sussex; PhD in zoology, King's College, London University
Awards:Elected Member of EMBO (2005),
Fellow of the Academy of Medical Sciences (2007),
Fellow of the Royal Society (2009),
Remedios Caro Almela Prize in Developmental Neurobiology (2011),
Champalimaud Foundation Vision Award (2016),
Rosenstiel Award (2022)
Website:http://www.pdn.cam.ac.uk/staff/holt/index.shtml

Christine Elizabeth Holt (born 28 August 1954) is a British developmental neuroscientist.[1]

She has been Professor of Developmental Neuroscience, University of Cambridge,[2] since 2003 and a Fellow of Gonville and Caius College, Cambridge University,[3] since 1997.

Holt is best known for her work in understanding the "basic mechanisms that govern how the vertebrate brain becomes wired up in the highly specific and complex way that it does." In 2009, she was part of an international team that received a Human Frontiers Science Program grant to develop molecular probes that will help researchers better understand the "cellular GPS" system that guides neurons to create a properly wired nervous system."[4] Her research provides leads for future therapies for nerve damage and neurodevelopmental disorders.

Scientific career

In 1977, Holt received her Bachelor of Science (Honors) in biological sciences from the University of Sussex. She did her doctoral work under the mentorship of John Scholes at King's College London, receiving her Ph.D in Zoology in 1982.[5]

From 1982 to 1986, she was a postdoctoral fellow in the Physiology Department at Oxford University and the Biology Department of the University of California San Diego (UCSD) under the mentorship W.A. Harris and Colin Blakemore.[6] In 1986, she became an assistant research biologist and lecturer at UCSD, where she continued to study the frog visual system in its early embryonic period. She received a McKnight Scholar Award[7] for this work in 1986 and an Alexander von Humboldt award in 1987.[8]

She joined the faculty at UCSD in 1989. During this period, she studied the mechanism in which cells from the retina grow towards and make connections with specific brain cells, performing experiments to understand the role of adhesion molecules in axon guidance. Specifically, she assessed the loss of N-cadherin and integrins, two of the three types of adhesion molecules, on the embryonic brain. In 1991, she was named a Pew Scholar.

In 1997, she moved to Gonville & Caius College at the University of Cambridge. In 2003, she became a Professor of Developmental Neuroscience in the Department of Physiology, Development and Neuroscience, the position she still holds today.[9] She was elected a member of the European Molecular Biology Organization in 2005, a fellow of the Academy of Medical Sciences in 2007, and fellow of the Royal Society in 2009. In 2011, she was awarded the Remedios Caro Almela Prize for Research in Developmental Neurobiology. In 2016, she was part of a team awarded the António Champalimaud Vision Award,[10] along with John Flanagan of Harvard Medical School, Carol A. Mason of Columbia University, Carla Shatz of Stanford University. In 2017, Professor Holt was awarded the Ferrier Medal and Lecture by the Royal Society "for pioneering understanding of the key molecular mechanisms involved in nerve growth, guidance and targeting which has revolutionised our knowledge of growing axon tip."[11] In 2022 she received the Rosenstiel Award,[12] and in 2023 The Brain Prize.[13]

Christine Holt was elected Member of the National Academy of Sciences in April 2020.[14]

Research

Holt's early career was spent studying cell movement during eye development in the frog visual system. Her seminal dissertation work was published in Nature 1980.[15] Much of what we currently know about the cellular and molecular mechanisms involved in establishing and sculpting the patterns of retinal projections comes from the work of Holt and her colleagues.[16]

Today, her research interests continue to lie in the mechanisms of axon guidance and synaptic specificity in the development of complex brain networks. Holt is credited as the pioneer of the idea that proteins synthesize and degenerate at a local level in an axon's cone of growth.[17] This process is required for accuracy in brain cell growth proper orientation. In addition to studying N-cadherin and integrins, she has also investigated the role of ephrins in axon growth and the formation of the optic chiasm.[18] In addition, her studies have found that netrin-1, DCC, and laminin-1 are key players in axon guidance from the retina.[19] [20] [21] For example, netrin-1 is both a chemoattractant and a chemorepellent for many classes of axons, and Holt's 1997 study shows that the growth cone of spinal neurons is chemoattractive to netrin-1 yet chemorepulsive when cAMP is present. Currently, Holt collaborates with the lab of Giovanni Armenise at Harvard University, focusing on the role of microRNAs and non-coding RNAs in axon regrowth and wiring, and as a possible link to cancer of the nervous system.[22]

Personal life

Holt is married to W.A. Harris (FRS).[23] Beyond teaching and research, she listed her other interests as “wildlife, walking, music, family”.

Further reading

"The Amazing Axon Adventure" http://www.cam.ac.uk/research/features/the-amazing-axon-adventure

Notes and References

  1. Web site: Christine Holt FRS FMedSci. Department of Physiology, Development and Neuroscience Staff Page, University of Cambridge. 30 December 2013.
  2. Web site: Professor Christine Holt FRS FMedSci. Cambridge Neuroscience. 30 December 2013.
  3. Web site: Professor Christine Holt FMedSci, FRS. Gonville & Caius. 30 December 2013. https://web.archive.org/web/20131230234634/http://www.cai.cam.ac.uk/people/christine-holt. 30 December 2013. dead.
  4. Web site: Carnegie Mellon researchers to develop probes to study cellular GPS. 30 December 2013. 10 November 2009.
  5. Web site: Christine Holt. 18 March 2014.
  6. Axonal mRNA localization and local protein synthesis in nervous system assembly, maintenance and repair. Hosung Jung. Byung C. Yoon. 1 May 2012. Nature Reviews Neuroscience. 308–324. 10.1038/nrn3210. 22498899. 3682205. Christine E. Holt. 13. 5. amp.
  7. Web site: Christine Holt named a McKnight Scholar. 18 March 2014. 19 June 1986.
  8. Web site: UCSD Biologist Christine E. Holt awarded $200,000 as Pew Scholar. 18 March 2014. 7 June 1991.
  9. Web site: The Remedios Caro Amelia Prize for Research in Developmental Neurobiology in its fifth edition is awarded to Christine Holt of Cambridge University. 18 March 2014. https://web.archive.org/web/20120620124617/http://in.umh.es/paginas_particulares/RCA/RCA2011_Awarded.pdf. 20 June 2012. dead.
  10. News: Champalimaud award goes to team fighting vision disorders. 2018-02-03.
  11. Web site: Ferrier Medal and Lecture Royal Society. 2020-09-01. royalsociety.org. en-gb.
  12. https://www.brandeis.edu/rosenstiel/rosenstiel-award/index.html Rosenstiel Award 2022
  13. https://lundbeckfonden.com/en/nyheder/pioneering-work-on-molecular-mechanisms-of-brain-development-and-plasticity-awarded-with The Brain Prize 2023
  14. Web site: 2020 NAS Election. National Academy of Sciences. 2020-04-28.
  15. Holt. Christine. 30 October 1980. Cell movements in Xenopus eye development. Nature. 287. 5785. 850–852. 10.1038/287850a0. 7432499. 1980Natur.287..850H. 4260738.
  16. Web site: Sight Specific HMS. hms.harvard.edu. en. 2018-02-03.
  17. Verma. Poonam. Chierz. Sabrina. Codd. Amanda. Campbell. Douglas. Meyer. Ronald. Holt. Christine. Fawcett. James. 12 January 2005. Axonal Protein Synthesis and Degradation Are Necessary for Efficient Growth Cone Regeneration. Journal of Neuroscience. 25. 2. 331–342. 10.1523/JNEUROSCI.3073-04.2005. 3687202. 15647476.
  18. Williams . Scott . Mann . Fanny . Erskine . Lynda . Sakurai . Takeshi . Wei . Shiniu . Rossi . Derrick . Gale . Nicholas . Holt . Christine . Mason . Carol . Henkemever . Mark . 11 September 2003 . Ephrin-B2 and EphB1 Mediate Retinal Axon Divergence at the Optic Chiasm, Neuron . Neuron . 39 . 6. 919–935 . 10.1016/j.neuron.2003.08.017. 12971893 . 18565204 . free .
  19. Verma . Poonam . Chierz . Sabrina . Codd . Amanda . Campbell . Douglas . Meyer . Ronald . Holt . Christine . Fawcett . James . December 1997 . Turning of Retinal Growth Cones in a Netrin-1 Gradient Mediated by the Netrin Receptor DCC . Neuron . 19 . 6 . 1211–1224 . 10.1016/S0896-6273(00)80413-4. 9427245. free .
  20. Ming . Guo-li . Song . Hong-jun . Berninger . Benedikt . Holt . Christine . Tessier-Lavinge . Marc . Poo . Mu-ming . 1 December 1997 . cAMP-Dependent Growth Cone Guidance by Netrin-1 . Neuron . 19 . 6 . 1225–1235 . 10.1016/s0896-6273(00)80414-6 . 9427246. 18290360 . free .
  21. Hopker . Veit . Shewan . Derryck . Tessier-Lavigne . Marc . Poo . Mu-ming . Holt . Christine . 2 September 1999 . Growth-cone attraction to netrin-1 is converted to repulsion by laminin-1 . Nature . 401 . 69–73 . 10.1038/43441 . 6748 . 10485706. 1999Natur.401...69H . 205033254 .
  22. Web site: The Giovanni Armenise-Harvard laboratory of axonal neurobiology. 18 March 2014. https://web.archive.org/web/20130522094106/http://www.unitn.it/en/cibio/23651/the-giovanni-armenise-harvard-laboratory-of-axonal-neurobiology. 22 May 2013. dead.
  23. 10.1126/science.289.5487.2024. 11032550. 0036-8075. 289. 5487. 2024–2028. Barinaga. Marcia. SCIENTIFIC COMMUNITY: Soft Money's Hard Realities. Science. 22 September 2000. 166558560.