Sperm’s immune-protection properties may hold vital clue to cancer spread

December 14th, 2007 - 2:07 pm ICT by admin  

Washington, Dec 14 (ANI): A new study has revealed that sugar-based markers on human sperm cells, which may prevent them from being attacked by the female immune system, could provide a vital link to how some cancers spread in the human body.

Led by Imperial College London and the University of Missouri, the new study analysed these markers, which are believed to tell the female immune system that the sperm are not dangerous pathogens, and therefore should not be attacked by the womans white blood cells during the reproductive process.

The study suggests that these sugar markers, found on N-glycans, which are part of human sperm glycoproteins, can be universally recognised by all human immune systems, regardless of the individual.

Normal human cells carry chemical markers made of proteins which tell the immune system not to attack them. In the case of organ transplants, for example, doctors try to match these markers in both the donor and the recipient to prevent rejection. However, in the case of sperm cells, their sugar-based markers are different: they are recognised by everyones immune system, meaning that no immune response is triggered during reproduction between any two people, Professor Anne Dell from Imperial College Londons Department of Life Sciences, one of the studys lead authors, said.

This kind of marker is also found on some types of cancer cells, some bacterial cells, some parasitic worms and HIV infected white blood cells. The researchers believe that these markers allow such dangerous cells and pathogens to evade destruction by the human immune system, leading to serious and sometimes fatal illness.

Dell said that understanding how this basic biology works on sperm cells may lead to greater knowledge of how some serious diseases and infections manage to win the battle with the human immune system.

If aggressive cancers and pathogens are using the same system of universally-recognisable markers to trick the immune system into thinking theyre harmless, we need to work out exactly how this interaction works. This is where were planning to take this research next. Understanding how these markers work at a basic biological and chemical level could lead to new ways to treat or prevent cancers and other diseases in the future, she said.
The new study is currently available online in the Journal of Biological Chemistry. (ANI)

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