Elizabeth Maywood is an English researcher who studies

circadian rhythm A circadian rhythm (), or circadian cycle, is a natural, internal process that regulates the sleep–wake cycle and repeats roughly every 24 hours. It can refer to any process that originates within an organism (i.e., endogenous) and responds to ...

s and sleep in mice. Her studies are focused on the

suprachiasmatic nucleus The suprachiasmatic nucleus or nuclei (SCN) is a tiny region of the brain in the hypothalamus, situated directly above the optic chiasm. It is responsible for controlling circadian rhythms. The neuronal and hormonal activities it generates regul ...

(SCN), a small region of the brain that controls circadian rhythms.

Biography

Elizabeth Susan Maywood was born in Leeds, England. She attained a degree in Pharmacology before going on to obtain her Ph.D. in biochemical endocrinology in London. After receiving her Ph.D., in 1988 she joined Michael Hastings’ group as a postdoc in the Department of Anatomy at the

University of Cambridge , mottoeng = Literal: From here, light and sacred draughts. Non literal: From this place, we gain enlightenment and precious knowledge. , established = , other_name = The Chancellor, Masters and Schola ...

(now part of the Physiology, Development and Neuroscience (PDN) Department) to study seasonal biology in

Syrian hamsters The golden hamster or Syrian hamster (''Mesocricetus auratus'') is a rodent belonging to the hamster subfamily, Cricetinae. Their natural geographical range is in an arid region of northern Syria and southern Turkey. Their numbers have been ...

. In 2001 she moved with Hastings to the

MRC Laboratory of Molecular Biology The Medical Research Council (MRC) Laboratory of Molecular Biology (LMB) is a research institute in Cambridge, England, involved in the revolution in molecular biology which occurred in the 1950–60s. Since then it has remained a major medical r ...

in Cambridge, where he had set up a new research group to study the molecular neurobiology of circadian rhythms. Since then, she has moved the focus of her study to circadian rhythms and sleep.

Research contributions

Early research in the field of

chronobiology Chronobiology is a field of biology that examines Time, timing processes, including periodic (cyclic) phenomena in living organisms, such as their adaptation to sun, solar- and moon, lunar-related rhythms. These cycles are known as biological rh ...

utilizing lesion experiments has suggested that the suprachiasmatic nucleus (SCN) serves as the master

circadian clock A circadian clock, or circadian oscillator, is a biochemical oscillator that cycles with a stable phase and is synchronized with solar time. Such a clock's ''in vivo'' period is necessarily almost exactly 24 hours (the earth's current solar day) ...

of the mammalian brain and is entrained through retinal inputs. More recently, research on the SCN has focused on the function of individual neuropeptides and their complex interactions in the scope of the SCN circuitry. Research into the role of vasoactive intestinal polypeptide (

VIP A very important person or personage (VIP or V.I.P.) is a person who is accorded special privileges due to their high social status, influence or importance. The term was not common until sometime after World War 2 by RAF pilots. Examples in ...

), gastrin-releasing peptide ( GRP), arginine vasopressin (

AVP AVP may stand for: Medicine * Anthrax Vaccine Precipitated, a British anthrax vaccine * Arginine vasopressin, the form of the antidiuretic hormone vasopressin found in most mammals Popular culture * ''Alien vs. Predator'', a science fiction fran ...

), and GABA has started to paint a picture of the hierarchy of neuropeptides in the maintenance of circadian coherence in the SCN. Maywood's research investigates the complex interactions of various neuropeptides and the role of events at the membrane in feedback loops in the SCN. Furthermore, Maywood's research also seeks to understand how different parts of the SCN coordinate rhythms and more broadly understand the interaction of the SCN with sleep.

Studies of CRY1/CRY2 in the Suprachiasmatic Nucleus

In one experiment, Maywood and her colleagues in the Hastings and Chin groups at the LMB aimed to control the

Cry1 Cryptochromes (from the Greek κρυπτός χρώμα, "hidden colour") are a class of flavoproteins found in plants and animals that are sensitive to blue light. They are involved in the circadian rhythms and the sensing of magnetic fiel ...

and

Cry2 Cryptochromes (from the Greek κρυπτός χρώμα, "hidden colour") are a class of flavoproteins found in plants and animals that are sensitive to blue light. They are involved in the circadian rhythms and the sensing of magnetic fields ...

proteins responsible for proper functioning of transcriptional-translational

negative feedback Negative feedback (or balancing feedback) occurs when some function of the output of a system, process, or mechanism is fed back in a manner that tends to reduce the fluctuations in the output, whether caused by changes in the input or by othe ...

loops ( TTFLs). To do this, the researchers used orthogonal aminoacyl-tRNA synthetase/tRNA brought to the SCN by an adeno-associated virus vector (AAV). The Cry1 protein carrying the AAV vector contained noncanonical amino acids (ncAA) and an ectopic amber stop codon resulting in a silencing mutation. When arrhythmic SCN slices lacking functional Cry1 were placed on culture mediums containing ncAA the TTFLs were genetically activated immediately, and the strength of activation depended on the dose of ncAA in the growth medium. When the ncAA medium was removed, TTFL activation disappeared. From these results, Maywood and her colleagues were able to demonstrate that within the SCN, Cry1 is necessary for circadian functioning. Rhythmicity, however, was found to be controlled by initiation of TTFL functioning. Ultimately, the study's results allowed the researchers to conclude that the circuit, cell, and animalian mechanisms required for circadian functioning are developmentally independent of the presence of Cry proteins.

Studies of VPAC2 in the Suprachiasmatic Nucleus

In another study, Maywood and colleagues utilized

luciferase Luciferase is a generic term for the class of oxidative enzymes that produce bioluminescence, and is usually distinguished from a photoprotein. The name was first used by Raphaël Dubois who invented the words '' luciferin'' and ''luciferase'' ...

and GFP

reporter gene In molecular biology, a reporter gene (often simply reporter) is a gene that researchers attach to a regulatory sequence of another gene of interest in bacteria, cell culture, animals or plants. Such genes are called reporters because the char ...

s and real-time imaging of cellular circadian gene expression across mice SCN slice cultures to investigate the role of VIPergic signaling. Through this research, Maywood and her colleagues at the Laboratory of Molecular Biology alongside Tony Harmar at the

University of Edinburgh The University of Edinburgh ( sco, University o Edinburgh, gd, Oilthigh Dhùn Èideann; abbreviated as ''Edin.'' in post-nominals) is a public research university based in Edinburgh, Scotland. Granted a royal charter by King James VI in 15 ...

demonstrated that the

Vipr2 Vasoactive intestinal peptide receptor 2 also known as VPAC2, is a G-protein coupled receptor that in humans is encoded by the ''VIPR2'' gene. Tissue distribution VIPR2 is expressed in the uterus, prostate, smooth muscle of the gastroint ...

gene, which encodes the VPAC2 receptor for Vasoactive intestinal polypeptide (VIP), is necessary both for maintenance of molecular timekeeping within individual suprachiasmatic nucleus neurons and between different SCN neurons. Additionally, Maywood and colleagues have demonstrated that gastrin-releasing peptide (GRP), another SCN neuropeptide, can act as an enhancer and aid in synchronization of molecular timekeeping in the absence of VIPergic signals. This effect, however, is limited and insufficient to maintain coordinated molecular cycles for longer periods of time. Maywood's research in this area has provided key insights into the SCN clockwork and how events at the membrane assist in driving intracellular feedback loops. These findings also indicate that the SCN has the distinctive property of spontaneous synchronization of inter-neuronal molecular timekeeping through the use of neuropeptidergic signaling.

Studies of Interaction between Suprachiasmatic Nucleus and Sleep

Maywood and colleagues also study interactions between the suprachiasmatic nucleus (SCN) and extra-SCN local clocks in the brain, contributing to knowledge concerning the circadian component in the two-process model of sleep regulation. To study the effects of interactions between the SCN and local clocks in the brain, Maywood compared various sleep parameters in three different groups of mice: 1) wild type (WT) mice with 24 hour circadian periods, 2) mutant CK1ε Tau mice having 20 hour circadian periods, and 3) chimeric CK1ε mice with dopamine 1a receptor ( Drd1a) expressing cells in the SCN exhibiting 24h circadian periods and extra-SCN local clocks exhibiting 20 h periods. The difference in period between the SCN and local clocks resulted in temporal misalignment for the chimeric mice. The results from this study showed evidence that temporal misalignment between the SCN and local clocks compromised sleep architecture and overall sleep quality for the chimeric mice. Chimeric mice saw less

NREM Non-rapid eye movement sleep (NREM), also known as quiescent sleep, is, collectively, sleep stages 1–3, previously known as stages 1–4. Rapid eye movement sleep (REM) is not included. There are distinct electroencephalographic and other cha ...

sleep than their temporally aligned counterparts, decreased sleep recovery abilities, and increased amounts of sleep fragmentation. These were all concluded to be the result of internal desynchronization between the SCN and local clocks. Additionally, the effects of circadian misalignment on sleep architecture affected the mices’ cognitive abilities, where chimeric mice performed worse on sleep-dependent memory tasks than their counterparts. These results demonstrate the importance of temporal coherence between all clocks in the brain for maintaining effective circadian regulation of sleep. While the specific contributions of local clocks across the brain remain unknown, Maywood's research has shed light on the importance of extra-SCN clocks. These tissues play important roles in circadian sleep regulation, and coordination between these clocks and the SCN can determine overall sleep quality.

Awards

In 2011, Maywood was recognized with Aschoff's Rule prize

References

{{DEFAULTSORT:Maywood, Elizabeth Living people Year of birth missing (living people) British scientists Circadian rhythm 21st-century English women scientists Chronobiology Scientists from Leeds