Blocking Addiction of Heroin and Morphine

Photo: Brain

This is concept art depicting
addiction;© University of
Adelaide/Joshua Burton

The team from the University of Adelaide and University of Colorado has discovered the key mechanism in the body's immune system that amplifies addiction to opioid drugs.

Laboratory studies have shown that the drug (+)-naloxone (pronounced: PLUS nal-OX-own) will selectively block the immune-addiction response. The results could eventually lead to new co-formulated drugs that assist patients with severe pain, as well as helping heroin users to kick the habit.

"Our studies have shown conclusively that we can block addiction via the immune system of the brain, without targeting the brain's wiring," says the lead author of the study, Doctor Mark Hutchinson.
"Both the central nervous system and the immune system play important roles in creating addiction, but our studies have shown we only need to block the immune response in the brain to prevent cravings for opioid drugs."

The team has focused its research efforts on the immune receptor known as Toll-Like receptor 4 (TLR4). "Opioid drugs such as morphine and heroin bind to TLR4 in a similar way to the normal immune response to bacteria. The problem is that TLR4 then acts as an amplifier for addiction," Hutchinson says.

"The drug (+)-naloxone automatically shuts down the addiction. It shuts down the need to take opioids, it cuts out behaviours associated with addiction, and the neurochemistry in the brain changes – dopamine, which is the chemical important for providing that sense of 'reward' from the drug, is no longer produced."

Senior author Professor Linda Watkins says: “This work fundamentally changes what we understand about opioids, reward and addiction. We have suspected for some years that TLR4 may be the key to blocking opioid addiction, but now we have the proof. The drug that we have used to block addiction, (+)-naloxone, is a non-opioid mirror image drug that was created by Doctor Kenner Rice in the 1970s. We believe this will prove extremely useful as a co-formulated drug with morphine, so that patients who require relief for severe pain will not become addicted but still receive pain relief. This has the potential to lead to major advances in patient and palliative care.”; Source: University of Adelaide