Pauli Lectures devoted to cell logistics

Cells use a sophisticated parcel service to transport biomolecules to their destination. James E. Rothman discovered the cellular transport system, winning the Nobel Prize for Physiology in 2013 for his work. Next week, he will give this year’s Pauli Lectures at ETH Zurich.

© 2013 The Nobel Committee for Physiology or Medicine / Mattias Karlén
The biochemist and cell biologist James E. Rothman of Yale University will give the 2016 Pauli Lectures at ETH Zurich. (Image: Mattias Karlén / Alena Soboleva) 

Similar to a chemical factory, cells manufacture various proteins at a relentless pace, which then have to be quickly transported to their destination after synthesis. Some of these molecules are intended for export to the cell’s surface, while others take on roles in the cell’s interior. Cells use a sophisticated distribution system to transport materials: they package freshly manufactured proteins in tiny bubble-shaped ferries called vesicles. These bring the special cargo to the right place at the right time and make no mistakes with the delivery addresses. It has long been a mystery as to how cells accomplish this logistical feat with such precision. James E. Rothman, a professor of biochemistry and cell biology at Yale University, is an expert in the field of cellular transport systems and has made a major contribution to solving the mystery of cell logistics.

Parcel service using the lock-and-key principle

“Rothman is an internationally renowned scientist with a pioneering spirit. He was the first to describe the molecular machinery that allows cells to administer their parcel service so reliably. In so doing, he has had a decisive impact on the field of vesicle transport,” says Nenad Ban, Professor of Structural Molecular Biology at ETH Zurich. Ban is a co-organiser of this year’s Pauli Lectures and brought Rothman on board as a lecturer.

Like all cells and their organelles, the vesicle – which transports the cargo through the cell – is wrapped in a biomembrane. When studying mammalian cells, Rothman discovered that the vesicle bubbles contain specific protein complexes on their membranes that fit like a key to a counterpart in the membrane of the target site. When the vesicle docks with its key to a corresponding membrane lock, the tiny ferry fuses with the cell or organelle membrane and empties its contents at the predetermined location.

This parcel service process – known as intracellular membrane fusion – is a fundamental mechanism in biology and plays a central role in cell growth and division. It is also medically relevant because mistakes in the supply chain can lead to serious diseases. By characterising membrane fusion, Rothman supplied the basic principle for a variety of important physiological processes, including the release of the hormone insulin into the bloodstream, communication between nerve cells in the brain and the infection of cells by viruses.

With the insight of a Nobel Prize winner

Rothman’s groundbreaking discoveries on cellular transport routes won international recognition. He has received numerous awards for his work, the high point being the Nobel Prize for Physiology in 2013. The Department of Biology at ETH Zurich is now honouring Rothman for his research achievements by inviting him to give this year’s Wolfgang Pauli lectures.

During the ETH lecture series, which begins next Monday, Rothman will first talk about the importance of research for society and what it takes to make scientific achievements possible. In a second lecture, he will offer an insight into the cell transport system and, in particular, the series of discoveries that led to the 2013 Nobel Prize.

Finally, Rothman will address the communication of nerve cells, where membrane fusion occurs much faster than anywhere else in nature: when a nerve impulse crosses a synapse, vesicles at the nerve endings release neurotransmitters in less than one millisecond; these act as chemical messengers to carry the information to the adjacent nerve cell. In his third lecture, he will explore how it is possible that the same mechanism is about 10,000 times faster here than in hormonal secretions.

Pauli Lectures 2016

The Wolfgang Pauli Lectures, a three-part lecture series, have been held annually since 1962. They are dedicated, in turn, to physics, mathematics and biology. The Pauli Lectures offer a forum for distinguished speakers to present their pioneering research. The lecture series is named after the theoretical physicist and Nobel laureate Wolfgang Pauli, who was a professor at ETH Zurich from 1928 until his death in 1958. The lectures, which are given in English, are open to the public and aimed at a wide audience with an interest in natural sciences. Admission is free. Registration is not necessary.

The lectures from James E. Rothman:

On the Role of Scientific Research in Society, and Lessons Learned from a Life in Science

  • Monday, 30 May 2016, 8.15 pm (ETH Zentrum, Auditorium Maximum, HG F 30)

On the Sorting of Proteins to Compartmentalize the Cell – the Story of Three Nobel Prizes from a Modern Perspective

  • Tuesday, 31 May 2016, 8.15 pm (ETH Zentrum, Auditorium Maximum, HG F 30)

On the Structural Biochemical Mechanism of Synaptic Neurotransmission in the Brain

  • Wednesday, 1 June 2016, 3.30 pm (ETH H?nggerberg campus, lecture hall HCI G3).

More information is available at: http://www.pauli-lectures.ethz.ch

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