News and Events from and for the Division of Science, Brandeis University
The 12th annual Wiley Prize in Biomedical Sciences has been awarded jointly to Michael Rosbash and Jeffrey Hall of Brandeis and Michael Young of Rockefeller University. The trio are once again being honored for their work on the molecular mechanisms governing circadian rhythms (see more on this site)
Sleepy during the day? Hungry at night? You should check your biological clock!
As in every organism, humans are exposed to daily variations of their environment. There is obviously the day/night cycle, but significant variations of temperature and humidity also occur in temperate regions of the globe. To survive to these environmental changes, organisms have evolved so that their biology, biochemistry, physiology and behavior are rhythmically regulated on a 24hr-basis. Humans are no exception, and most (if not all) of our biological functions are set to function optimally at the most appropriate time of the day. For example, the physiology of muscle cells is rhythmic so that their capacity of coping with physical activity is maximal during the day.
A lot of progress has been made over the last two decades to uncover the molecular underpinnings of circadian (for circa, about and dies, day) rhythms. To keep the story short, in all eukaryotes the circadian system relies on transcriptional feedback loops that operate at the level of individual cells (see figure 1). In mammals, these loops are composed of the two transcription factors CLK and BMAL1, which act as a heterodimeric complex to activate the expression of the transcriptional repressors Period (Per1, Per2 and Per3) and Cryptochrome (Cry1 and Cry2). When expressed, these repressor proteins are post-translationally modified (e.g., phosphorylation) and feedback to inhibit the transcriptional activity of CLK:BMAL1. As a result, transcription of Per and Cry genes is shut-off. The progressive degradation of the PER and CRY proteins then leads to a new cycle of CLK:BMAL1-mediated transcription. Importantly, these transcriptional oscillations regulate the rhythmic expression of a large fraction of the transcriptome (up to 10-15% of all mRNAs). These output genes, also called “clock-controlled genes”, are rhythmically regulated in a tissue-specific manner, and are responsible for the daily oscillations of biological functions.
As in other biological systems, it is generally assumed that daily variations of mRNA levels are a direct consequence of transcription regulation. However, there is growing evidence that post-transcriptional events such as mRNA splicing, polyadenylation, nuclear export and half-life also contribute to changes in the amount of mRNA expressed by particular genes. Such post-transcriptional processes are known to have a role in other areas of cell biology but until very recently this had not been studied in detail at a genome-wide level.
This is the question addressed by Jerome Menet, Joseph Rodriguez, Katharine Abruzzi and Michael Rosbash, in a paper recently published at eLife (Menet et al., 2012). The authors directly assayed rhythmic transcription by measuring the amount of nascent RNA being produced at a given time, six times a day, across all the genes in mouse liver cells using a high-throughput sequencing approach called Nascent-Seq (see figure 2). They compared this with the amount of liver mRNA expressed at six time points of the day. Although the authors found that many genes exhibit rhythmic mRNA expression in the mouse liver, about 70% of them did not show comparable transcriptional rhythms. Post-transcriptional regulations have therefore a major role in the circadian system of mice. Interestingly, similar experiments performed by Joe Rodriguez in the Rosbash lab using Drosophila as the model system led to the same conclusions, suggesting that the contribution of post-transcriptional events to the generation of circadian rhythms is common to all animals (Rodriguez et al., in press).
To assess the contribution of the core molecular clock to genome-wide transcriptional rhythms, Menet et al. also examined how rhythmic CLK:BMAL1 DNA binding directly affects the transcription of its target genes. They found that although maximal binding occurs at an apparently uniform phase, the peak transcriptional phases of CLK:BMAL1 target genes are heterogeneous, which indicates a disconnect between CLK:BMAL1 DNA binding and its transcriptional output.
The data taken together reveal novel regulatory features of rhythmic gene expression and illustrate the potential of Nascent-Seq as a genome-wide assay technique for exploring a range of questions related to gene expression and gene regulation.
Rodriguez J, Tang CHA, Khodor YL, Vodala S, Menet JS, Rosbash M. Post-transcriptional events regulate genome-wide rhythmic gene expression in Drosophila. Proc Natl Acad Sci U S A. (In press).
Brandeis scientists Michael Rosbash and Jeff Hall, along with Michael Young (Rockefeller Univ.) will receive the 2012 Massry Prize, according to Brandeis NOW. The prize, established in 1996 by the Meira and Shaul G. Massry Foundation, honors “outstanding contributions to the biomedical sciences and the advancement of health“. This trio of researchers has garnered several prizes already for their contributions to understanding the mechanisms underlying circadian rhythms.
The winners will receive the prize and present lectures on October 29, 2012 at the University of Southern California.
There will be a couple of opportunities to hear Michael Rosbash talk about circadian rhythms locally, first at the Inaugural Lecture for the Gruber chair on Thursday, then at the Brandeis Café Science fall season opener on October 1.
Provost Steve A. N. Goldstein writes:
It is with great pleasure that I invite you to participate in another significant moment in the history of this campus—the dedication of the Peter Gruber Chair in Neuroscience. Named chairs are an important way the University can recognize and sustain outstanding research, exceptional teaching, and visionary leadership. The dedication of the Gruber Chair is one such occasion, and we will gather to honor the first incumbent, Professor Michael Rosbash, our friend and remarkable colleague. Furthermore, we are most fortunate to be able to greet and thank the generous donor, Patricia Gruber of the Peter and Patricia Gruber Foundation, who will join us for these festivities. I do hope you will join us for this exciting afternoon.
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Photo Copyright © Stanley Rowin
Thursday, September 27, 2012, 3:30 p.m.
Rapaporte Treasure Hall, Goldfarb Library
Michael Rosbash is the inaugural holder of the Peter Gruber Chair in Neuroscience and a Howard Hughes Medical Institute Investigator. A Professor of Biology, Professor Rosbash is also the Director of the National Center for Behavioral Genomics at Brandeis. He is a member of the American Academy of Arts and Sciences and the National Academy of Sciences. Professor Rosbash and Professor of Biology Emeritus Jeffrey Hall collaborated closely for more than two decades at Brandeis. Combining their expertise in fly genetics and molecular biology, they cloned the Drosophila fruit fly period gene, a key regulator of circadian rhythms. The mechanism of the molecular clock that they then discovered later was found to be universal in the biological world. Through ongoing research, Professor Rosbash continues to advance our understanding of the importance of circadian rhythms to health and disease.
The Peter and Patricia Gruber Foundation honors and encourages educational excellence, social justice, and scientific achievements that better the human condition. The Peter and Patricia Gruber Foundation is a private, United States-based philanthropic organization established in 1993 under the 501(c)(3) section of U.S. Corporate Law. It is funded entirely by Peter and Patricia Gruber, who serve as its Chairman and President, respectively. A major focus of the Foundation’s philanthropy is its International Prize Program, created to recognize excellence in science and humanities by highlighting five fields that create a better world: Cosmology, Genetics, Neuroscience, Justice, and Women’s Rights. To support Cosmology, Genetics, and Neuroscience further, the Gruber Foundation has affiliated with preeminent science organizations to award fellowships to promising young scientists in those fields.
Brandeis science faculty members Michael Rosbash and Jeff Hall were named today as 2012 recipients of the Canada Gairdner International Award, one of the world’s top prizes for biomedical research. Together with Michael Young (Rockefeller Univ.), they were honored “for pioneering discoveries concerning the biological clock responsible for circadian rhythms”. The trio has previously been honored with the 2011 Louis Gross Horwitz Prize and the 2009 Gruber Neuroscience Prize for this research.
The Gairdner Foundation in Toronto began giving awards in 1959 to recognize and reward the world’s most creative and accomplished biomedical scientists. So far about a quarter of the recipients have gone on to win a Nobel Prize. Also honored this year (for other work) were neuroscientist Tom Jessell and immunologist Jeffrey Ravetch.
Hall is now Professor Emeritus of Biology, and his influence is felt strongly in the strong Drosophila genetics community at Brandeis even though his lab is gone. The Rosbash lab continues to be a force for innovation in research on circadian regulation and mRNA processing. To hear more about Rosbash lab research, come to Wednesday seminar on April 4, when Michael will be the speaker. The title of his seminar is: 37 years at Brandeis (but who’s counting): Gene Expression and Circadian Rhythms.
Here’s some video the Gairdner Foundation posted on YouTube:
More information about this story at the following sites:
Columbia University will award the 2011 Louisa Gross Horwitz Prize to Jeffrey C. Hall, Michael Rosbash, and Michael W. Young “for their work on the molecular basis of circadian rhythms, the first demonstration of a molecular mechanism for behavior”. Hall is a Professor Emeritus of Biology at Brandeis, and Rosbash is an HHMI Investigator and Professor of Biology at Brandeis. The prize is awarded annually for outstanding basic research in biology or biochemistry. In the early 1980s, working at Brandeis, Hall and Rosbash combined their expertise in fly genetics and molecular biology to clone the Drosophila gene period, a key regulator of the circadian rhythm, as Young and his lab at The Rockefeller University did independently.
In subsequent years, research in the Hall and Rosbash labs at Brandeis led to transcriptional feedback models for the clock, discovery of additional genetic factors involved in the behavior, and discovery of neuroanatomical features involved in circadian rhythms. Circadian rhythms have been found in a very wide variety of organisms, and seem to be important in metabolism and disease.
Hall and Rosbash will receive their award in November at a ceremony at Columbia University.
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