Fibroblast Heterogeneity of Nasal Polyps in Non-Allergic and Allergic Rhinitis

BACKGROUND & OBJECTIVES: Some components of ground substances are known to be involved in developing nasal polyp. The fibroblasts are a major component of the ground substances in nasal polyp and have many immunologic roles. Heterogeneity of fibroblasts has been observed in other anatomical sites including the nasal mucosa. The aim of this study was to investigate the heterogeneity of fibroblasts of nasal polyps in non-allergic rhinitis and allergic rhinitis. MATERIALS & METHODS: Using the third passage of the fibroblasts taken from polyps of allergic and non-allergic patients, we measured the proliferating potential by comparing the cell growth in the culture system of fibroblasts and calculated the doubling time of the cell growth. We also compared the proliferating potentials between the two groups after stimulation with histamine or IL-4. RESULTS: Morphologic differences were examined by transmission electron microscopy. In the non-stimulated experiment, proliferation of fibroblasts was increased in the non-allergic polyp group (NAPG). When the fibroblasts were stimulated with histamine, the proliferation was not significantly changed on day 6 in both groups. When the fibroblasts were stimulated with IL-4, the proliferation was significantly increased in NAPG. Morphologic differences were demonstrated between the NAPG and the APG. CONCLUSION: The differences in cell proliferation potentials and morphological changes between both groups suggest that there is a heterogeneity of fibroblasts between them.

Differences of Nasal Hypersensitivity between Smokers and Nonsmokers / 대한이비인후과학회지

BACKGROUND AND OBJECTIVES: Smoking is regarded as one of the factors that bring about nonspecific hypersensitivity in allergic nasal mucosa. But it is uncertain how chronic smoking affects hypersensitivity in nasal mucosa. This study was designed to evaluate the relationship between smoking and nasal hypersensitivity. In this study, histamine is used since it is commonly used to evaluate nasal hypersensitivity. MATERIAL AND METHODS: Twelve smokers and 9 nonsmokers were participated in this study. Nasal mucosae of each subjects were stimulated by thiorphan followed by substance P. After stimulation, several dilutions of 10 to 5X104 ng/ml of histamine was instilled to both nasal cavity at intervals of 10 minutes. We measured the volume of nasal cavity by acoustic rhinometry in each step and counted the number of sneezing and nasal blowing at every 10 minute intervals. Changes in volume after each dillutions of histamine instillations were compared with the values measured after the stimulation by thiorphan and substance P., and this value was expressed as the percentage volume change. RESULTS: The nasal volume of smoker group was increased upto 100 ng/ml of histamine and decreased from 1000 ng/ml of histamine. The nasal volume of nonsmoker group decreased more than the smoker group with each dilution of histamine. The number of sneezing and nasal blowing increased in each group with each dilution of histamine. CONCLUSIONS: Chronic smoking may decrease susceptibility of hypersensitivity to histamine in nasal mucosa.

The Effect of Substance P on Nasal Mucosal Hypersensitivity through Sensory Nerve Axonal Reflex

The mucus secretion of airway glands is known to be controlled by the various autonomic neurotransmitters such as noradrenalin and acetylcholine. However, a recent study suggests that non-adrenergic, non-cholinergic (NANC) nerves may contribute to the secretory activity of glands. Substance P (SP) has been proposed as a neurotransmitter of the NANC nervous system. SP is present within nerve fibers innervating the airway mucosa and is known to be released from sensory nerves via an axonal reflex. SP activity is controlled by neutral endopeptidase (NEP) which degrades SP. In this study, we evaluated the effects of NEP inhibitor (thiorphan) and substance P on nasal mucosa and histamine on the nasal mucosa in healthy males. In the thiorphan-substance P experimental group, the nasal volume decreased after nebulization of substance P in proportion to the concentration of histamine. In the thiorphan-substance P experimental group, the frequency of sneezing increased in proportion to the concentration of histamine, but there was no increased frequency of sneezing from thiorphan, SP and normal saline. The results of this study suggest that axonal reflexes can play a role in the pathogenesis of nasal mucosal hypersensitivity and neurogenic inflammation.

Effects of Leukotriene D4 on Ultrastructure of Nasal Mucous Membrane in Guinea Pigs / 대한이비인후과학회지

The aim of this study was to evaluate effects of leukotriene D4(LTD4) on the nasal airway. Fifteen guinea pigs were divided into two groups;10 for experimental group and 5 for control group. Two l of 10(-5)mol LTD4 was administered to both nasal cavities in experimental group and same volume of normal saline in control group. Transmission electron microscopy was performed to investigate ultrastructural change of the nasal mucosal membrane in LTD4 administered guinea pigs. Infiltration of neutrophils and eosinophils from the capillaries were seen in the perivascular space. In the capillaries, some endothelial cells degenerated and intercellular spaces of the cells were widened, especially 6 hours later. Degranulated mast cells and neutrophils were found in the lumen of the capillaries. Several red blood cells with low electron density were seen in the shrunken vessels. The giant mitochondriae with inclusion bodies were observed. The results of this study suggest that leukotriene may be a potent mediator to induce biphasic response in the nasal passage of guinea pigs.