Mystery Protein is an Immune System Component
A protein called ITIH4, the function of which was largely a mystery, has been shown to a as a protease inhibitor, and a component of the innate immune system.
The discovery was made by Professor Steffen Thiel and PhD student Rasmus Pihl at Aarhus University, with the help of a mass spectrometry team led by Professor Jan J Enghild.
Proteases are enzymes which cleave other proteins, and usually occur in cascade networks where proteases cleave each other in a chain reaction. One example of this is blood clotting.
There is also the complement system in the body, which is responsible for eliminating pathogens, and cancerous or dying cells. Immunoglobin G (IgG) and M (IgM) antibodies activate complement proteins which work with them, hence the name “complement”. This system of enzymes is kept in check by protease inhibitors.
The researchers wanted to find out which other proteins in our blood the “MASP” proteases from the complement cascade interact with. They found to their surprise that two MASP proteases formed a strong complex with the ITIH4 protein, about which very little is known, especially its function.
“I was highly surprised when I saw the first data from our partners, showing that ITIH4 could form a complex with the MASP-1 and MASP-2 enzymes. At Biomedicine, we have been studying these two proteases for 25 years, and ITIH4 has simply never been on the radar. But it made good sense, as proteins similar to ITIH4 act as inhibitors of other proteases,” said Rasmus Pihl.
It was also discovered that when ITIH4 formed a complex with MASP-1 and MASP-2, they could still cleave small proteins, but when ITIH4 inhibited them, they could not cleave large proteins.The researchers discovered that ITIH4 performs an inhibitory enzyme function similar to that of one discovered in the 1980s called AM2, but it accomplished it in a new, entirely different manner.
“There is very little knowledge about ITIH4, but it is known that under various pathological conditions, the protein can be cleaved. Our results show that such a cleavage is absolutely necessary for the way ITIH4 can function as an enzyme inhibitor,” Professor Steffen Thiel explained.
Their colleague Gregers R Andersen added: “By using cryo-electron microscopy, we now try to understand in detail how ITIH4 inhibits MASP-1 and MASP-2 via this new inhibition mechanism. We already know that when ITIH4 is cleaved, it forms a complex with both MASP-1 and another ITIH4 molecule. We are very excited to see how it takes place.”
Source: Medical Xpress
Journal information: Rasmus Pihl et al, ITIH4 acts as a protease inhibitor by a novel inhibitory mechanism, Science Advances (2021). DOI: 10.1126/sciadv.aba7381
