This is a summary of an important scientific study by Di Prisco et al examining how low doses of neonicotinoids impair immunity to diseases and viruses such as DWV, in honey bees:
Di Prisco G, Cavaliere V, Annoscia D, et al. Proc Natl Acad Sci U S A. 2013;110(46):18466-71. (Ref 1).
But wait! "If the disease is already in a creature's body, surely it's only a matter of time before they begin to show signs of disease, and possibly die?"Answer: Here is a comment from a paper published by the esteemed biological research journal, The Royal Society Publishing: "it is estimated that one-third of the human population is infected with Mycobacterium tuberculosis (Dye et al. 1999); however, only 5–10% of these infections cause overt disease within the first 2 years. Many individuals that have a covert infection will never express the overt, active TB infection that causes disease and has the potential for horizontal transmission (WHO Report 2005)." |
(Ref 2).
In order to understand this paper, a little simplified background information is worth including, so here goes.
The bodies of insects produce a number of different protein molecules, each performing its own important role. Protein molecules are receptors, meaning they receive and respond to signals and/or stresses outside the cell itself.
One protein complex called NF-kB is very important for causing immune responses to stresses, such as harmful bacteria and viruses. In other words, this protein is a receptor that responds to harmful bacteria and viruses, so it is very important for the insect’s ability to fight off diseases.
Nevertheless, if an insect’s response is too sensitive to stressors, then this is actually harmful to the insect – it could actually over-react to beneficial gut (stomach) bacteria that the insect needs to keep it healthy. So, to keep the amount of NF-kB receptors in check, the insect’s body produces another protein, called LRR (which stands for Lutein Rich Repeat).
However, if the insect has too many LRR receptors, then it will over-regulate the amount of NF-kB in the insect’s body, such that it cannot produce enough NF-kB to fight off diseases and viruses that are harmful.
So you can see that insects (including honey bees) need the correct balance
of these 2 proteins in order to have a healthy immune system that fights off
diseases and viruses whilst allowing beneficial gut bacteria to thrive:
|
(Note: A sub-lethal dose is an amount that will not
immediately cause death. However,
sub-lethal doses can have subtle effects that ultimately harm and
eventually cause death). |
The scientists found that exposure to the neonicotinoid clothianidin resulted in an imbalance of the 2 important proteins so that:
Quote:
"The occurrence at sublethal doses of this
insecticide-induced viral proliferation suggests that the studied
neonicotinoids might have a negative effect at the field level."
In the paper, the scientists refer to a number of other
studies, worthy of mention here, considering their potential impact on proteins that play an important part in immunity:
They found that the percentage of fruit fly larvae showing an intense response to immune challenge, was significantly lower in larvae exposed to clothianidin, than in the control group.
In other words, larvae that had been exposed to the neonicotinoid, were not producing so much of the protein NF-kB, which is important for fighting diseases and pathogens.
Again, no such impact on the disease fighting protein was exhibited when the larvae were exposed to the organophosphate chlorpyriphos.
1. Di Prisco G, Cavaliere V, Annoscia D, et al. "Neonicotinoid clothianidin adversely affects insect immunity and promotes replication of a viral pathogen in honey bees." Proc Natl Acad Sci U S A. 2013;110(46):18466-71.
2. The evolution of covert, silent infection as a parasite strategy Ian Sorrell , Andrew White , Amy B. Pedersen , Rosemary S. Hails , and Mike Boots . Published:11 March