By Brady Huggett
Most of the people in this story have already died, but there are still some who remember a finding that captivated the developmental biology field decades ago. The story concerns a molecule, known as the “head activator,” which was believed at that time to be a short neuropeptide necessary for head regeneration in the freshwater cnidarian hydra.
In 1973, a German graduate student named H. “Chica” Schaller published a paper under the prolix title: “Isolation and characterization of a low-molecular-weight substance activating head and bud formation in hydra.” The work was conducted in the Alfred Gierer lab at the Max-Planck-Institute for Virus Research in Tübingen, Germany. The lab had been working to understand morphogenesis (the process by which an organism develops) in Hydra attenuata. In the course of this work, they uncovered a substance that they claimed was responsible for initiating head formation in hydra.
Chica’s paper emerged as the fields of developmental biology and molecular biology were intersecting. In 1924, Hans Spemann and Hilde Mangold demonstrated the concept of an “organizer”— a cluster of cells within the newt embryo that could induce or guide the development of surrounding tissue when inserted in another species of newt. In the elapsing decades, the field had observed similar organizational activity across species, but the molecular underpinnings for these phenomena were unknown. Chica’s 1973 paper drew on these findings to propose a similar mechanism in hydra, putting her name on the developmental biology map.
Later, she and her colleague Hans Bodemüller would sequence the substance — the first morphogen ever sequenced, actually — and make it available to any interested researcher. The head activator became synonymous with Chica’s name. Over the years that followed, both she and her colleagues published a string of papers about it, as well as studies on inhibitors in hydra, and Chica was asked to present at conferences in both Europe and the U.S.
The problem was that her findings were seemingly impossible to replicate. Both her early colleagues and the people in the larger Hydra field eventually abandoned them: Stefan Berking was unable to repeat her work; Charles David watched as new explanations for hydra morphogenesis arose; and Robert Steele decided her claims weren’t worth wasting funding dollars on.
Today, while the Hydra remains a useful model for the study of nerve nets, aging, and regenerative medicine, new explanations have emerged to explain morphogenesis in hydra. The mystery of Chica’s “head activator” has never been solved. The history of how it was discovered and eventually rejected illustrates how science progressed over her lifetime, moving from embryology to molecular biology to genetics.
But the real reason I spent months reading and translating books and calling around to locate interview subjects was to understand how this mystery affected the people involved; to learn why the one person who openly challenged Chica and the head activator, a German biologist named Werner Müller, bore the scars of that battle to his grave.
Beginnings
Hydra have a thin body column, generally shy of an inch, with a disk-like foot at one end and a mouth surrounded by tentacles at the other. The tentacles have stinging cells, and the animal eats by grabbing, paralyzing, and ingesting its prey, often small crustaceans. These cnidarians travel by somersaulting, head-over-foot, and they mostly reproduce by asexual budding. But because they possess a high proportion of stem cells, their bodies constantly renew and large portions can regenerate. For this reason, they are sometimes referred to as immortal.
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