En-Chi Wan's research while affiliated with Flinders University and other places

Autoantibodies (Abs) directed against L-type voltage-gated calcium channels (VGCCs) have been shown to contribute to autonomic dysfunction of the gastrointestinal tract and bladder in patients with Type 1 diabetes mellitus (T1D). We used a passive transfer model to determine whether the functional activity of the Ab requires crosslinking of channels in colon and bladder and can be neutralized by intravenous immunoglobulin (IVIg). Mice were injected with mono- and divalent F(ab) fragments of patient IgG with anti-VGCC activity and tested for gut and bladder function using a colonic migrating motor complex (MMC) assay and bladder-filling cystometry. The ability of IVIg to neutralize anti-VGCC IgG-mediated autonomic dysfunction was investigated by injection of mice with an equimolar concentration of IVIg prior to T1D IgG injection, or by injection with T1D IgG passed over a sepharose 4B column coupled with F(ab')(2) from IVIg. Passive transfer of T1D IgG and its F(ab')(2) or F(ab) fragments reduced the amplitude of spontaneous colonic motility. In contrast, intact IgG and F(ab')(2,) but not F(ab), produced the urodynamics features of an overactive bladder. T1D IgG-mediated colonic and bladder dysfunction was neutralized in vivo by prior injection of animals with equimolar IVIg. Moreover, anti-VGCC activity was depleted by preabsorption of patient IgG on a IVIg F(ab')(2) column. The activity of anti-VGCC IgG is mediated by the antigen-binding site consistent with a true functional Ab. The pathogenic effect on the bladder requires crosslinking of the channel, whereas monovalent binding of Ab is sufficient for disruption of colon motility. The anti-VGCC Abs are neutralized by antiidiotypic antibodies present in IVIg that may prevent the emergence of these Abs in healthy individuals.

Bladder dysfunction is a common complication of diabetic autonomic neuropathy; however, its cause remains uncertain. We have recently identified a novel IgG autoantibody (Ab) in patients with type 1 diabetes that acts as an agonist at the dihydropyridine (DHP) site of L-type voltage-gated calcium channels (VGCC), disrupting neuronal regulation of visceral smooth muscle. In the present study, passive transfer to mice of IgG from patients with type 1 diabetes was used to investigate the role of anti-VGCC Abs in mediating diabetic bladder dysfunction. Injection of mice with diabetic immunoglobulin (IgG) with anti-VGCC activity induced features of an overactive bladder, including phasic detrusor contractions and a loss of bladder wall compliance. The bladder overactivity is mimicked by the DHP agonist Bay K8644, reversed by the DHP antagonist nicardipine, but is insensitive to the motor nerve blocker tetrodotoxin, indicating that the anti-VGCC Ab acts at the level of the bladder detrusor itself. This study reports the first evidence of Ab-mediated bladder dysfunction in type 1 diabetes, which may be part of a wider spectrum of smooth muscle and cardiac abnormalities.