Abnormal binding of proteins impedes creation of crystalline enamel structure, which can lead to bad teeth

Abnormal binding of proteins impedes creation of crystalline enamel structure, which can lead to bad teeth
Abnormally formed tooth enamel can lead to a lifetime of dental problems. Credit: Environmental Molecular Sciences Laboratory

Scientists have shown how a tiny flaw in a protein results in damaged enamel that is prone to decay, according to a new study published in the Proceedings of the National Academy of Sciences.

People with a condition known as Amelogenesis imperfecta (Al) don't develop correctly because of a single amino acid defect in the critical enamel protein called amelogenin. Scientists from Pacific Northwest National Laboratory (PNNL) report that defective amelogenin proteins stick or bind abnormally tightly to the building enamel, failing to clear out when they should, thus hindering the careful growth process through which strong enamel is built.

"The teeth aren't as strong because the enamel is much thinner and the crystals less ordered," said Jinhui Tao, the first author of the paper. "In most people, the enamel is the hardest substance in their body, but that's not true for patients with AI."

The genetic defect results in enamel that is discolored, soft, and easily broken. The defective enamel makes patients more susceptible to tooth decay and gum disease. To understand what's happening, Tao and colleagues took a close look at a process known as binding—how strongly proteins stick to other substances and to each other, in real time. The process is crucial for cell signaling and for our health, and binding errors are behind many diseases.

The team combined with solid-state nuclear magnetic resonance spectroscopy available through EMSL, the Environmental Molecular Sciences Laboratory, as well as other methods to study mineralization and other processes involving the proteins that form enamel.

Abnormal binding of proteins impedes creation of crystalline enamel structure, which can lead to bad teeth
Tooth enamel X-ray. Credit: Environmental Molecular Sciences Laboratory

They found the defective proteins' propensity to literally stick too long and too strong to the surface thwarts other molecular players from doing their jobs in creating a solid crystalline structure. They slow down an enzyme known as MMP20, which removes excess amelogenin from the developing mineral surface. When MMP20 can't do its job, enamel grows more slowly and is weaker. The sticky proteins also slow down the formation of hydroxyapatite, the crystalline building block of enamel.

It's a little bit like bricklaying, only in developing teeth, many molecules work together to do a job similar to that of a bricklayer. How the sits between bricks is crucial for creating a solid, regular –crystalline—structure. If mortar is applied inconsistently or sloppily, and if too much mortar remains and hardens into clumps, the bricks don't fit together tightly, gaps result, and the entire structure is weak and porous and doesn't grow as thick or as ordered as necessary. Instead of an impenetrable wall made of mineral crystals, pits and gaps form in the enamel of AI patients, allowing penetration by acids and bacteria that can cause tooth pain and promote decay.

The smooth, solid tooth enamel that most people are born with belies the incredible molecular complexity that makes it possible. Proteins are constantly interacting with the apatite mineral surface. This new research shows that how strongly the proteins bind to the mineral structure as well as to each other is a key factor in determining how our teeth develop.

Exploring how proteins use binding energy as currency to accomplish their tasks is relevant to many other areas of science as well. The current work focuses on naturally occurring genetic disorders, but the understanding that the team gained of how proteins bind to and interplay in a complex environment is something that is relevant to a wide range of material sciences research.

"This works helps us understand why people with these mutations have weak and fragile tooth enamel, but more broadly, it gives us about how to control the creation or manipulation of materials for many applications, such as the development of new organic-inorganic hybrid materials for high-performance computing, catalysis research, or energy storage," Tao said.


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More information: Jinhui Tao et al. The energetic basis for hydroxyapatite mineralization by amelogenin variants provides insights into the origin of amelogenesis imperfecta, Proceedings of the National Academy of Sciences (2019). DOI: 10.1073/pnas.1815654116
Citation: Abnormal binding of proteins impedes creation of crystalline enamel structure, which can lead to bad teeth (2019, July 3) retrieved 16 July 2019 from https://medicalxpress.com/news/2019-07-abnormal-proteins-impedes-creation-crystalline.html
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