Honey is good, natural "medicine" for everyone - inside and out. So take it daily or rub it on and treat your body well and bee healthy...
Honey’s ‘healing powers’ can be summarised into 5 main ingredients or activities of the components of honey
Scientific American, 2012, March 21
Hydrogen peroxide – Honey contains an enzyme called glucose oxidase which breaks down glucose sugars and generates hydrogen peroxide, a kind of bleach, when there is free water available. In case you missed the antimicrobial component it was friggin BLEACH IN YOUR HONEY. I can feel you wondering why bees would bleach their own food supply and it turns out that is very simple. Any available water can cause the honey to spoil so the presence of glucose oxidase in the honey is an inbuilt anti-spoiling mechanism, pretty smart huh?
|photos of honey-healed wound in 3 weeks|
Sugar – The hydrogen peroxide control mechanism is a back up as very little free water exists in honey. The lack of free water is due to the vast amount of sugar dissolved into honey which gives it a low water activity. This essentially means that honey is more likely to take up water from its surroundings than have water removed from it and if you are a micro-organism it makes it very difficult to survive.
Methylglyoxal or MGO – This compound is an incredibly interesting and powerful antibacterial compound but, it is only found in certain natural honeys (Manuka honey from
) although it can be made in artificial greenhouses as well. This is the stuff that is making honey a potentially very useful topical salve (with the possibility of other forms of treatment being considered) in medical honey treatments such as MediHoney. New Zealand
Bee Defensin 1 – Bee Defensin is an antimicrobial peptide (AMP) that for a long time was thought to be exclusively found in the Royal Jelly (The food worker bees make for potential Queen larve). But fairly recent discoveries have found it in the honey, but more on AMPs in a second.
Acidity – Finally, honey is fairly acidic and remains so even when diluted holding a pH of approximately 3.5. Nothing that likes eating you particularly likes living in acid so this property is very important.
No single property is more important than the others and the multifactorial nature of honey’s activities is probably the key to its amazing antimicrobial nature. Having said this, Bee Defensin 1 and other identified AMPs in honey such as Apidaecin may have much more involved roles that are only recently being uncovered...
Interestingly, apidaecins seem to also have the ability to alter the host immune system by modifying chemotaxis (movement of cells in the immune system), apoptosis (induced cell death), cytokine/chemokine production (the production of signalling chemicals which direct the immune response), antigen presentation and the Th1/Th2 balance (whether you fight the nasty with B cells or T cells).
In most cases the ability of apidaecins (and their homologues) to modulate the immune system has been done in the the organism the AMP was originally recovered from but some recent work sugests the potential for insect apidaecin to have a crossover effect on a mammalian system. While apidaecin is insect derived it appears to be sufficiently similar in shape to human AMPs that it can interact with and modify the activity of our immune system. When macrophages in particular were incubated with apidaecin they started pumping out chemokines and cytokines that promote increased antimicrobial activity in these cells...
While only preliminary, it seems honey and its various components might have more secrets to unveil which will further develop our understanding of the anti-microbial nature of this environmental product and at the same time its pro-immune responses elicited when we use it.