Variance of Peptidic Nerve Innervation in a Canine Model of Atrial Fibrillation Produced by Prolonged Atrial Pacing

Autonomic Remodeling: How Atrial Fibrillation Begets Atrial Fibrillation in the First 24 Hours

BACKGROUND

The mechanism(s) of how atrial fibrillation (AF) sustains itself in the first 24 hours is not well understood.

OBJECTIVE

We sought to investigate the role of autonomic remodeling in the first 24 hours of AF simulated by rapid atrial pacing (RAP).

METHODS

Forty-eight rabbits were divided into 6 groups. One group (n = 8) was euthanized after baseline recordings. Another group (n = 8) did not receive RAP during the 24-hour period to serve as controls. In the other 4 groups, rabbits were euthanized after RAP for 4, 8, 12, or 24 hours (n = 8 for each). Before and after designated hours of RAP, atrial effective refractory period, heart rate variability, and left vagal and sympathetic nerve activity (VNA and SNA, respectively) were determined. The right and left atrial tissues were obtained for immunocytochemical analysis for growth-associated protein 43 (GAP43), tyrosine hydroxylase (TH), and choline acetyltransferase (ChAT).

RESULTS

RAP resulted in progressively shortened atrial effective refractory period and slower heart rate. In the first 12 hours of RAP, both SNA and VNA progressively increased. Then, VNA remained stably elevated but SNA began to attenuate. The high-frequency component and low-frequency/high-frequency ratio of heart rate variability followed the trend of VNA and SNA, respectively. The density of GAP43-positive, ChAT-positive, and TH-positive neural elements in the right and left atria was progressively higher with RAP.

CONCLUSIONS

AF resulted in progressive autonomic remodeling, manifesting as nerve sprouting, sympathetic and vagal hyperinnervation. Autonomic remodeling may play an important role in sustaining AF in the first 24 hours.

Atrial fibrillation increases sympathetic and parasympathetic neurons in the intrinsic cardiac nervous system

BACKGROUND

Chronic atrial fibrillation (AF) leads to heterogeneous autonomic nerve innervation termed neural remodeling. The quantitative changes in neural density as a function of autonomic remodeling and its association with sustained AF has not been previously determined.

METHOD AND RESULTS

Seven dogs (paced group) were chronically paced with electrodes sutured to the epicardium of left atrial appendages. Seven dogs (control animals) were not paced. All paced dogs developed sustained AF by 5 weeks of pacing. The fat pads on the atrial epicardium containing ganglionated plexuses (GP) were separated along with underlying myocardial tissue. Immunocytochemical techniques were used to identify the neurons immunoreactive to anti-tyrosine hydroxylase (TH) and anti-acetylcholine antibodies. After chronic AF, sympathetic and parasympathetic neurons in the atrial intrinsic cardiac ganglia increased significantly. In paced dogs, the density of sympathetic neurons was 3,022 ± 507 μm(2) /mm(2) in the right atrial GP (vs control P < 0.01), 8,571 ± 476 μm(2) /mm(2) in the ventral left atrial GP (vs control P < 0.0001)， 6,422 ± 464 μm(2) /mm(2) in the dorsal atrial GP (vs control P < 0.0001) and 5,392 ± 595 μm(2) /mm(2) in the inferior vena cava-inferior atrial GP (vs control P <0.0001), respectively. The density of parasympathetic neurons was 4,396 ± 877 μm(2) /mm(2) in the right atrial GP, 7,769 ± 465 μm(2) /mm(2) in the ventral left atrial GP， 7,016.47 ± 687 μm(2) /mm(2) in the dorsal atrial GP and 5,485 ± 554 μm(2) /mm(2) in the inferior vena cava-inferior atrial GP, respectively, which was higher than control cohorts in corresponding GP (P < 0.05).

CONCLUSIONS

This study provides evidence for the remodeling in atrial intrinsic cardiac ganglia in the dogs with pacing induced AF. A significant increase of sympathetic and parasympathetic neurons was present in atrial intrinsic cardiac ganglia.

Autonomic neural remodeling of the pulmonary vein-left atrium junction in a prolonged right atrial pacing canine model

BACKGROUND

No evidence has been presented to show whether autonomic neural remodeling occurs in pulmonary vein-left atrium (PV-LA) junction and what an important role it may play in AF. This study aims to find out these issues in a prolonged rapid atrial pacing canine model.

METHODS

Twelve healthy mongrel dogs were randomly divided into two groups, six in each: the paced group underwent rapid right atrial pacing at 400 beats per minute for 4 weeks, and the control group was not paced. The effective refractory period (ERP) of left superior pulmonary vein-left atrium (LSPV-LA) junction in all animals was determined immediately after 4 weeks. Tissues were removed from 1 cm around all PV-LA junctions. Immunohistochemical staining and western blotting were performed to examine the expression of tyrosine hydroxylase (TH) and choline acetyltransferase (ChAT).

RESULTS

Compared with the control group, ERP of LSPV-LA junction of the paced group was significantly shortened ([83.33 ± 16.33] ms vs [111.67 ± 20.41] ms, P < 0.05). Spontaneous atrial fibrillation developed in two animals in the paced group, but in none of the control group. Immunohistochemistry showed that the average density and heterogeneity of both TH- and ChAT-positive nerves at LSPV-LA junction in the paced group were significantly higher compared to the control group (P < 0.01). Western blotting showed that the expression of TH and ChAT at four PV-LA junctions in the paced group also increased markedly compared with the control group (P < 0.01).

CONCLUSION

Autonomic neural remodeling did exist in PV-LA junction after prolonged atrial pacing, which may contribute to the initiation of atrial fibrillation and be significant in its treatment by radiofrequency catheter ablation.

Inhibition of atrial fibrillation by low-level vagus nerve stimulation: the role of the nitric oxide signaling pathway

PURPOSE

We examined the role of the phosphatidylinositol-3 kinase (PI3K)/nitric oxide (NO) signaling pathway in low-level vagus nerve stimulation (LLVNS)-mediated inhibition of atrial fibrillation (AF).

METHODS

In 17 pentobarbital anesthetized dogs, bilateral thoracotomies allowed the attachment of electrode catheters to the superior and inferior pulmonary veins and atrial appendages. Rapid atrial pacing (RAP) was maintained for 6 h. Each hour, programmed stimulation was used to determine the window of vulnerability (WOV), a measure of AF inducibility, at all sites. During the last 3 h, RAP was overlapped with right LLVNS (50 % below that which slows the sinus rate). In group 1 (n = 7), LLVNS was the only intervention, whereas in groups 2 (n = 6) and 3 (n = 4), the NO synthase inhibitor N (G)-nitro-L-arginine methyl ester (L-NAME) and the PI3K inhibitor wortmannin, respectively, were injected in the right-sided ganglionated plexi (GP) during the last 3 h. The duration of acetylcholine-induced AF was determined at baseline and at 6 h. Voltage-sinus rate curves were constructed to assess GP function.

RESULTS

LLVNS significantly decreased the acetylcholine-induced AF duration by 8.2 ± 0.9 min (p < 0.0001). Both L-NAME and wortmannin abrogated this effect. The cumulative WOV (the sum of the individual WOVs) decreased toward baseline with LLVNS (p < 0.0001). L-NAME and wortmannin blunted this effect during the fifth (L-NAME only, p < 0.05) and the sixth hour (L-NAME and wortmannin, p < 0.05). LLVNS suppressed the ability of GP stimulation to slow the sinus rate, whereas L-NAME and wortmannin abolished this effect.

CONCLUSION

The anti-arrhythmic effects of LLVNS involve the PI3K/NO signaling pathway.

Parasympathetic and substance P-immunoreactive nerve denervation in atrial fibrillation models

BACKGROUND

Recent studies demonstrated that atrial fibrillation (AF) induced heterogeneous sympathetic hyperinnervation and baroreflex impartation, but the changes of vagal and afferent nerve are not clear.

METHODS

Six dogs underwent atrial pacing at 600 beats/min (AF group). All paced dogs developed sustained AF by 5 weeks of pacing. Tissues from six healthy dogs were used as controls. Immunohistochemistry staining of cardiac nerves was performed using anti-growth-associated protein 43 (anti-GAP43), anti-tyrosine hydroxylase, antiacetylcholine (anti-ACh), and anti-substance P (anti-SP) antibodies.

RESULTS

In AF group, the density of GAP43-positive in the right atrium (RA), atrial septum (AS), and left atrium (LA) was 5590.24±1417.51, 8083.22±1271.39, and 10854.56±1877.56 μm(2)/mm(2), respectively, which was significantly (P<.01) higher than the control group. Most of the newly sprouting nerves are sympathetic nerve. Sympathetic nerve density in AF group was significantly higher than that of control group (P<.001). Whereas denervation of parasympathetic and SP-immunoreactive nerve occurred in AF group. In the dogs with AF, the density of ACh-positive nerve in the RA, AS, and LA was 506.04±104.44, 317.72±84.10, and 114.9±29. 62 μm(2)/mm(2), respectively, which was lower than the control group (P<.01). At the same time, the density of SP-positive nerve in the atria of AF dogs was also significantly lower than the control tissues (P<.01).

CONCLUSION

AF led to significant nerve sprouting and sympathetic hyperinnervation in the canine models, but the newly sprouting nerve did not include parasympathetic and SP-immunoreactive nerve. Heterogeneous parasympathetic and SP-immunoreactive nerve denervation occurred in the AF dogs.

Atrial autonomic innervation remodelling and atrial fibrillation inducibility after epicardial ganglionic plexi ablation

AIMS

The effects of ganglionated plexi (GP) ablation on atrial fibrillation (AF) inducibility and atrial autonomic innervation remodelling have not been elucidated.

METHODS AND RESULTS

Thirteen dogs were randomly divided into sham-operated group and GP ablation group. All animals underwent a right thoracotomy at the fourth intercostal space. Atrial fibrillation inducibility was assessed by burst rapid pacing at right atrium (RA). After anterior right GP and inferior right GP ablation, AF inducibility was assessed in the GP ablation group. The animals were allowed to recover for 8 weeks, after which, AF was measured again. The levels of atrial natriuretic peptide (ANP) in blood and atrial tissues were examined by radioimmunoassay. Immunocytochemical staining of cardiac nerves was performed in tissues from the dogs. Atrial fibrillation was induced easily in the GP ablation group after 8 weeks although AF was not observed in the sham-operated group, and after instant GP ablation. Compared with that in the sham-operated group, the levels of ANP in the blood and RA increased significantly 8 weeks after GP ablation (111.4 +/- 18.2 vs. 175.1 +/- 25.9; 184.9 +/- 36.3 vs. 299.1 +/- 32.5; P < 0.05). In the GP ablation group, the density of growth-associated protein 43-positive, tyrosine hydroxylase-positive, and choline acetyltransferase-positive nerves in the RA was 821 +/- 752, 481 +/- 627, and 629 +/- 644 per mm(2), respectively, which was significantly (P < 0.01) lower than the nerve density in sham-operated tissues (2590 +/- 841, 1752 +/- 605, and 3147 +/- 886 per mm(2), respectively).

CONCLUSION

Atrial autonomic innervations remodelling may be the mechanism of induced AF after GP ablation.