ASICs and Surgical Pain

Dr. Eric Lingueglia, an INSERM group leader, and his team at the CNRS IPMC/IN2M have been doing impressive research using our i-Fect ™ siRNA Transfection Kits to study the role of Acid-Sensing Ion Channels in Postoperative Pain.

The etiology and pathophysiology of this pain is poorly understood. Their work is shedding light on potential root causes:
Emmanuel Deval, Jacques Noël, Xavier Gasull1, Anne Delaunay, Abdelkrim Alloui, Valérie Friend, Alain Eschalier, Michel Lazdunski, and Eric Lingueglia. Acid-Sensing Ion Channels in Postoperative Pain. The Journal of Neuroscience, 20 April 2011, 31(16): 6059-6066; doi: 10.1523/​JNEUROSCI.5266-10.2011.

...Ten microliters of a siRNA (2 μg)/i-Fect (Neuromics) mix was injected intrathecally between the L4 and L5 vertebrae of rats using a Hamilton syringe and a 25 gauge needle. Animals received one injection per day for 4 d (Fig. 4A, protocol). ASIC3 (CUACACGCUAUGCCAAGGAdtdt) and the corresponding scramble (GCUCACACUACGCAGAGAUdtdt) siRNAs have been previously described (Deval et al., 2008)...


Highlights: Pharmacological inhibition of ASIC3 channels with the specific toxin APETx2 or in vivo knockdown of ASIC3 subunit by small interfering RNA led to a significant reduction of postoperative spontaneous, thermal, and postural pain behaviors (spontaneous flinching, heat hyperalgesia, and weight bearing). ASIC3 appears to have an important role in deep tissue but also affects prolonged pain evoked by skin incision alone.

ASIC3s are excitatory ion channels directly activated by extracellular protons that detect the painful drops in pH at incision points. Several factors may participate in the drop of extracellular pH, such as release of the acidic content of lyzed cells, degranulation of mast cells, organic acids released by metabolism..etc  This makes makes the Ion Channel a great marker for the studying activation of pain and a potential therapeutic target for mitigating surgical pain.

I will continue to track and report progress.

ACIC3 Receptors Knockdown in vivo

Researchers using siRNA complexed with our i-Fect ™ transfection regent have successfully knocked down ASIC3 Receptors in vivo. This publication joins the growing parade (starting with Luo et al, 2005) that refererence successuful modulation of receptors involved in pain using siRNA complexes.

These studies all share animal behavior studies showing a marked change in response to pain stimuli after treatment.

In this study, Dr. Eric Lingueglia and his team found Peripheral ASIC3 channels are thus essential sensors of acidic pain and integrators of molecular signals produced during inflammation where they contribute to primary hyperalgesia.

Emmanuel Deval, Jacques Noël, Nadège Lay, Abdelkrim Alloui, Sylvie Diochot, Valérie Friend, Martine Jodar, Michel Lazdunski and Eric Lingueglia. ASIC3, a sensor of acidic and primary inflammatory pain. The EMBO Journal advance online publication 16 October 2008; doi: 10.1038/emboj.2008.213

Cy3-labelled siRNA no. 1121 and its corresponding scramble (no. 1121S; GCTCACACTACGCAGAGAT) synthesized by MWG Biotech (Germany) were injected in rats by intrathecal bolus to the lumbar region of the spinal cord once a day for 3 days before the induction of inflammation with CFA. Each 10-ml injection corresponded to 2 mg of siRNA complexed with i-Fect siRNA transfection reagent (Neuromics) at a ratio of 1:4 (w:v) (Luo et al, 2005), following the supplier’s suggested protocol. siRNA uptake in lumbar DRGswas monitored by fluorescence microscopy on cryostat sections 24 h after a single intrathecal injection.

Here’s a synopsis of results:
Inflammation was produced by CFA injection, which led to primary heat hyperalgesia, and this hyperalgesia was drastically reduced by the ASIC3 blocker APETx2 injected subcutaneously, which only access cutaneous nociceptors. It was also drastically reduced when, before triggering the inflammation state, intrathecalinjections of an siRNA against ASIC3 had induced a knockdown of ASIC3 expression in lumbar DRGs.