Interstitial Cells Of Cajal Cells Research Articles

Preventive effect of kiwi berry (Actinidia arguta) on loperamide-induced constipation

Constipation is a common intestinal disease. Kiwi berries can effectively prevent constipation. However, studies have yet to be done to determine how kiwi berries prevent constipation. For 2 weeks, mice in this study were continually orally gavaged with kiwi berry, loperamide, or a combination of the two. This study found that the kiwi group's feces had more water than the constipated mice. In addition, kiwi berries can speed up gastrointestinal transit (GI), shorten the time it takes to pass the first dark stool, and dramatically enhance body weight gain. In the interstitial cells of Cajal (ICC) cells and colon tissues, alterations in the protein expression of vasoactive intestinal peptide (VIP), cyclic adenosine monophosphate (cAMP), protein kinase A (PKA), and aquaporin-3 (AQP3) were found. At 3, 6, and 12 h of ICC cells and mouse colon, the kiwi group’s VIP, cAMP, PKA, and AQP3 protein expression levels were lower than those of the constipated mice. The kiwi berry can decrease the Firmicutes to Bacteroidetes ratio and boost the diversity and quantity of gut microbiota. By influencing the gut microbiota and VIP-cAMP-PKA-AQP3 signaling pathway, kiwi berries prevent constipation.

Interstitial Cells of Cajal-Origin, Distribution and Relationship with Gastrointestinal Tumors.

The interstitial cells of Cajal (ICC) represent a particular network formed by some peculiar cells that were first described by the great neuroanatomist, S. Ramon y Cajal. Nowadays, the ICC have become a fascinating topic for scientists, arousing their curiosity; as a result, there is a vast number of published articles related to the ICC. Today, everybody widely accepts that the ICC represent the pacemaker of the gastrointestinal tract and are highly probable to be the origin cells for gastrointestinal tumors (GISTs). Recently, Cajal-like cells (ICLC) were described, which are found in different organs but with an as yet unknown physiological role that needs further study. New information regarding intestinal development indicates that the ICC (fibroblast-like and muscle-like) and intestinal muscle cells have the same common embryonic cells, thereby presenting the same cellular ultrastructure. Nowadays, there is a vast quantity of information that proves the connection of the ICC and GISTs. Both of them are known to present c-kit expression and the same ultrastructural cell features, which includes minimal myoid differentiation that is noticed in GISTs, therefore, supporting the hypothesis that GISTs are ICC-related tumors. In this review, we have tried to highlight the origin and distribution of Cajal interstitial cells based on their ultrastructural features as well as their relationship with gastrointestinal stromal tumors.

Electroacupuncture promotes gastrointestinal motility by activating autophagy of Cajal interstitial cells via downregulating PI3K/Akt/mTOR signaling pathway in stomach of diabetic gastro-paresis rats

To observe the effect of electroacupuncture (EA) of "Zusanli" (ST36), "Sanyinjiao" (SP6) and "Liangmen" (ST21) on gastrointestinal motility, blood glucose content and expression of autophagy-related proteins 1 light chain 3 (LC3), p62, phosphatidyli-nositol-3 kinase (PI3K), protein kinase B (Akt), p-Akt and mammalian target protein of rapamycin (mTOR) of interstitial cells of Cajal (ICCs) in the cultured gastric antrum cells in diabetic gastroparesis (DGP) rats, so as to reveal its mechanisms underlying improvement of DGP. A total of 45 Sprague Dawley (SD) rats were randomly divided into blank control, model, EA, medication (3-methyladenine, 3-MA) and EA+3-MA groups, with 9 rats in each group. The DGP model was established by intraperitoneal injection of 2% streptozotocin (STZ) combined with high-fat and high sugar diet for 8 weeks. The gastric emptying rate was measured by using gavage of phenol red (to measure the propelling length of the phenol red/total length of small intestine ×100%). The symptom score (mental state, coat color and luster, behavior and activity, stool traits) of rats was observed every week and the blood glucose content was measured by using a glucometer. EA (20 Hz/100 Hz, 2 mA) was applied to unilateral ST36, SP6 and ST21 alternatively for 15 min, once daily, 5 days a week for 3 weeks. Rats of the 3-MA and 3-MA+EA groups received intraperitoneal injection of 3-MA (30 mg·kg-1·d-1, 10 mg/mL), once daily, 5 days a week for 3 weeks. After 15 days' intervention, the rats were operated for gastric emptying rate test, specimen collection, isolation, and culture of primary ICCs. The expression levels of microtubule associated protein LC3, p62, PI3K, Akt, p-Akt and mTOR of ICCs of cultured gastric antrum cells were detected using Western blot, and the number of autophagosomes in ICC of gastric antrum was observed under transmission electron microscope. Compared with the blank control group, the symptom score, blood glucose, and the expression levels of p62, class Ⅰ PI3K, Akt, p-Akt and mTOR proteins were increased significantly (P<0.01), while the gastric emptying rate and ratio of LC3Ⅱ/LC3Ⅰ and the expression level of class Ⅲ PI3K protein were significantly decreased (P<0.05, P<0.01) in the model group. In comparison with the model group, the increase of symptom score, blood glucose, and expression levels of p62, class Ⅰ PI3K, Akt, p-Akt and mTOR proteins and the decrease of gastric empty rate and LC3Ⅱ/LC3Ⅰ ratio and the expression level of class Ⅲ PI3K protein were all reversed in both EA and EA+3-MA groups (P<0.05, P<0.01), rather than in the 3-MA group. In addition, 3-MA also reversed modeling-induced increase of class Ⅰ PI3K, Akt, p-Akt and mTOR proteins expression (P<0.01). No significant differences were found between the EA and EA+3-MA in downregulating the levels of symptom score and blood glucose content, and in upregulating gastric empty rate(P>0.05). The effect of EA was notably superior to that of EA+3-MA in upregulating the ratio of LC3Ⅱ/LC3Ⅰ and the expression level of class Ⅲ PI3K protein, and in downregulating the expression of p62, class Ⅰ PI3K, Akt, p-Akt and mTOR proteins (P<0.05, P<0.01). The findings of transmission electron microscopy showed obvious swelling, breakage of some mitochondrial cristae in the ICC cells of antrum and no autophagosomes in the model group and 3-MA group, which was milder in the damage of mitochondrial cristae and marked increase in the autophagosomes in both EA and EA+3-MA groups. EA can improve the gastrointestinal motility and symptoms in DGP rats, which may be related to its functions in downregulating PI3K/Akt/mTOR signaling to promote autophagy level of ICC.

“M1/M2” Muscularis Macrophages Are Associated with Reduction of Interstitial Cells of Cajal and Glial Cells in Achalasia

Background and AimsSeveral studies showed muscularis macrophages (MMφ) are associated with GI motility disorders. The purpose of this study was to preliminary explore the association between MMφ and achalasia.MethodsTissue samples of the lower esophageal sphincter (LES) high‐pressure zone were obtained from 27 achalasia patients and 10 controls. Immunohistochemistry for MMφ, interstitial cells of Cajal (ICC), neuronal nitric oxide synthase (nNOS), and glial cells were conducted. Histological characteristics were compared between groups, and correlation analysis was performed.ResultsFewer ICC was found in achalasia compared with controls (P = 0.018), and the level of M1 macrophages was higher than that in controls no matter in terms of the number or the proportion of M1(P = 0.026 for M1 and 0.037 for M1/MMφ). Statistical differences were found between two groups in terms of proportion of M2 and ratio of M1 to M2 (P = 0.048 for M2/ MMφ and < 0.001 for M1/M2). For the correlation analysis, significant correlations were detected between levels of nNOS, ICC, and glial cells in patients with achalasia (P = 0.026 for nNOS and ICC, 0.001 for nNOS and glial cells, 0.019 for ICC and glial cells). There were significant correlations between M2/MMφ and levels of ICC (P = 0.019), glial cells (P = 0.004), and nNOS (P = 0.135).ConclusionPatients with achalasia had a higher level of M1/M2 ratio in LES and significant correlations were found between M2/MMφ and numbers of ICC and glial cells, which suggested that MMφ were probably associated with occurrence and development of achalasia.

M1 macrophages-derived exosomes miR-34c-5p regulates interstitial cells of Cajal through targeting SCF

Slow transit constipation (STC) is a gastrointestinal disorder characterized by abnormal prolonged colonic transit time, which affects the life quality of many people. The decrease number of interstitial cells of Cajal (ICCs) is involved in the pathogenesis of STC. However, the molecular mechanism of loss of ICCs in STC remains unclear, making it difficult to develop new agents for the disease. In this study, we investigated the mechanism of decreasing ICCs in the pathogenesis of STC. We constructed the STC model rats by using atropine and diphenoxylate. A series of methods were used including immunofluorescence and immunochemistry staining, western blot, qRT-PCR, exosomes extraction and exosomes labeling. The results indicate that ICCs decreased in the STC rats accompanied with the macrophages activation. Further studies suggested that macrophages decreased the cell viability of ICCs by secretion exosomes containing miR-34c-5p. miR-34c5p targeted the 3Ꞌ -UTR of stem cell factor(SCF) mRNA and regulated the expression of SCF negatively. In conclusion, we demonstrated a novel regulatory mechanism of ICCs cell viability in STC. We found that exosome miR-34c-5p mediate macrophage-ICCs cross-talk. M1 macrophages derived exosomes miR-34c-5p decreased ICCs cell viability by directly targeting SCF.

Effects of electroacupuncture at different acupoints on the histomorphology of neurogenic bladder and the expression of hyperpolarization-activated cyclic nucleotide-gated channels in interstitial cells of Cajal in a rat model of suprasacral spinal cord injury.

To investigate the effects of electroacupuncture at different acupoints on the histomorphology of neurogenic bladder and the expression of hyperpolarization-activated cyclic nucleotide-gated (HCN) channels in interstitial cells of Cajal (ICC) in a rat model of suprasacral spinal cord injury (SCI). A incomplete suprasacral SCI rat model was induced using a MASCIS impactor. Rats were randomly divided into a sham operation group, SCI model group, Ciliao treatment group or Guanyuan treatment group. The histomorphology of bladder cells was observed after hematoxylin and eosin (H&E) staining of bladder tissue sections. The expression of HCN channel proteins in ICC cells was detected by western blot and immunofluorescence, and HCN channel mRNA expression was measured using real-time PCR. In terms of histomorphology, the level of bladder cells after SCI increased significantly, and marked inflammation and edema were observed. Electroacupuncture treatment at the Ciliao acupoint significantly reduced inflammation and edema, whilst electroacupuncture treatment at the Guanyuan point partially reduced inflammation and edema. In terms of HCN channel protein and mRNA expression, western blotting, immunofluorescence and real-time PCR all confirmed that HCN channel expression after SCI was significantly upregulated, while electroacupuncture treatment at the Ciliao and Guanyuan acupoints inhibited HCN channel expression. Electroacupuncture treatment at the Ciliao acupoint significantly reduced histomorphological abnormalities in ICCs, and inhibited the expression of HCN channel proteins after SCI.

NBCe1 in the Kidney and Lower Urogenital Tract

NBCe1 is an electrogenic Na+ bicarbonate cotransporter expressed as three isoforms. NBCe1A is mainly found in the kidney (100% activity), NBCe1B is a general isoform (~25% activity), and NBCe1C is found in the nervous system (20% activity). This project was to characterize mice with loss of NBCe1 in the kidney and urogenital tract and to test isoform activity ± IRBIT. Previous work has shown that NBCe1‐B is activated when IRBIT is present and interacts with the N‐terminus (Nt). Even though NBCe1C shares this Nt, the effects of IRBIT on human NBCe1C are unknown. Interstitial Cells of Cajal (ICC)pacemaker cells in the gastrointestinal tract (c‐kit+) have NBCe1C, IRBIT and require bicarbonate for normal gut activity. Developmentally similar ICC cells are found in the urogenital tract; however, NBCe1C locations within the kidney and urogenital tract are unknown. Using c‐kit‐copGFP and NBCe1A‐knockout mice, kidneys, ureters, prostate, bladder, and urethra were dissected and analyzed via direct imaging, sectioning, and immunofluorescence. Oocytes injected with NBCe1C ± IRBIT were voltage clamped to determine the cotransporter's activity. “Strings” of c‐kit+‐cells were found in the copGFP &amp; nbce1A kidneys. In nbce1(+/−)‐(Het) mice (Figure), prostate ducts appeared enlarged, and in nbce1A−/− kidney, c‐kit protein was broadly expressed, showing cluster colocalization with NBCe1C. NBCe1C is not obviously expressed in WT or copGFP mice. Electrophysiology data showed that IRBIT activates NBCe1C by ~10‐fold. As c‐kit is also a marker of stem cells, NBCe1C/c‐kit association and c‐kit increase in nbce1A−/− mice, could suggest that NBCe1A loss elicits kidney repair itself (proliferation) and causes expression of other NBCe1‐isoforms.Support or Funding InformationR25‐DK101405, R01‐DK057061, U54‐DK100227 (Mayo) and U54‐DK104310 (UW‐Madison)This abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.

A Formal Approach for Scalable Simulation of Gastric ICC Electrophysiology.

Efficient and accurate organ models are crucial for closed-loop validation of implantable medical devices. This paper investigates bio-electric slow wave modeling of the stomach, so that gastric electrical stimulator (GES) can be validated and verified prior to implantation. In particular, we consider high-fidelity, scalable, and efficient modeling of the pacemaker, Interstitial cells of Cajal (ICC), based on the formal hybrid input output automata (HIOA) framework. Our work is founded in formal methods, a collection of mathematically sound techniques originating in computer science for the design and validation of safety-critical systems. We modeled each ICC cell using an HIOA. We also introduce an HIOA path model to capture the electrical propagation delay between cells in a network. The resultant network of ICC cells can simulate normal and diseased action potential propagation patterns, making it useful for device validation. The simulated slow wave of a single ICC cell had high correlation ( ≈ 0.9) with the corresponding biophysical models. The proposed model is able to simulate the slow wave activity of a network of ICC cells with high-fidelity for device validation. The proposed HIOA model is significantly more efficient than the corresponding biophysical models, scales to larger networks of ICC cells, and is capable of simulating varying propagation patterns. This has the potential to enable verification and validation of implantable GESs in closed-loop with gastrointestinal models in the future.

Effect of recombinant lentivirus of SCL gene on expression of c-kit protein in interstitial cells of Cajal under high glucose condition

To determine the effect of a recombinant lentivirus containing human stem cell leukemia (SCL) gene on the expression of c-kit protein in damaged interstitial cells of Cajal (ICC) under high glucose condition. Methods: After isolation of ICC, the cells were cultured for 24 hours until the cells were adherent. After identification by inverted microscope and immunofluorescence, ICC cells were divided into two groups: A control group and a high glucose group. The control group was added with a medium containing 5 mmol/L of glucose. The high glucose group was added with a medium containing 20 mmol/L of glucose. After 48 h of continuous cultivation, the high glucose group was divided into 3 subgroups: A blank group, an empty lentivirus group, and an experimental group. The blank group, the empty lentivirus group, and the experimental group were added a medium containing PBS solution, empty lentivirus, and a recombinant lentivirus containing the SCL gene with a glucose concentration of 5 mmol/L, respectively. The cultures were incubated for 24 and 48 h. The expression of c-kit protein in ICC in each group was detected by Western blot. Results: After 24 or 48 h, the expression of c-kit protein in ICC was significantly lower in the blank group and the lentivirus group than that in the control group, and the expression of c-kit protein in ICC was significantly higher in the experimental group than that in the blank group and the empty lentivirus group, but it was still lower than that in the control group (all P<0.05). Conclusion: The recombinant lentivirus of SCL gene can up-regulate the expression of c-kit protein in functionally impaired ICC under high glucose condition.

Bioengineering functional smooth muscle with spontaneous rhythmic contraction in vitro

Oriented smooth muscle layers in the intestine contract rhythmically due to the action of interstitial cells of Cajal (ICC) that serve as pacemakers of the intestine. Disruption of ICC networks has been reported in various intestinal motility disorders, which limit the quality and expectancy of life. A significant challenge in intestinal smooth muscle engineering is the rapid loss of function in cultured ICC and smooth muscle cells (SMC). Here we demonstrate a novel approach to maintain the function of both ICC and SMC in vitro. Primary intestinal SMC mixtures cultured on feeder cells seeded electrospun poly(3-caprolactone) scaffolds exhibited rhythmic contractions with directionality for over 10 weeks in vitro. The simplicity of this system should allow for wide usage in research on intestinal motility disorders and tissue engineering, and may prove to be a versatile platform for generating other types of functional SMC in vitro.

Bioengineered intestinal muscularis complexes with long-term spontaneous and periodic contractions.

Although critical for studies of gut motility and intestinal regeneration, the in vitro culture of intestinal muscularis with peristaltic function remains a significant challenge. Periodic contractions of intestinal muscularis result from the coordinated activity of smooth muscle cells (SMC), the enteric nervous system (ENS), and interstitial cells of Cajal (ICC). Reproducing this activity requires the preservation of all these cells in one system. Here we report the first serum-free culture methodology that consistently maintains spontaneous and periodic contractions of murine and human intestinal muscularis cells for months. In this system, SMC expressed the mature marker myosin heavy chain, and multipolar/dipolar ICC, uniaxonal/multipolar neurons and glial cells were present. Furthermore, drugs affecting neural signals, ICC or SMC altered the contractions. Combining this method with scaffolds, contracting cell sheets were formed with organized architecture. With the addition of intestinal epithelial cells, this platform enabled up to 11 types of cells from mucosa, muscularis and serosa to coexist and epithelial cells were stretched by the contracting muscularis cells. The method constitutes a powerful tool for mechanistic studies of gut motility disorders and the functional regeneration of the engineered intestine.

Development of interstitial cells of Cajal in the human digestive tract as the result of reciprocal induction of mesenchymal and neural crest cells.

Neural crest cells (NCC) can migrate into different parts of the body and express their strong inductive potential. In addition, they are multipotent and are able to differentiate into various cell types with diverse functions. In the primitive gut, NCC induce differentiation of muscular structures and interstitial cells of Cajal (ICC), and they themselves differentiate into the elements of the enteric nervous system (ENS), neurons and glial cells. ICC develop by way of mesenchymal cell differentiation in the outer parts of the primitive gut wall around the myenteric plexus (MP) ganglia, with the exception of colon, where they appear simultaneously also at the submucosal border of the circular muscular layer around the submucosal plexus (SMP) ganglia. However, in a complex process of reciprocal induction of NCC and local mesenchyma, c‐kit positive precursors are the first to differentiate, representing probably the common precursors of ICC and smooth muscle cells (SMC). C‐kit positive precursors could represent a key impact factor regarding the final differentiation of NCC into neurons and glial cells with neurons subsequently excreting stem cell factor (SCF) and other signalling molecules. Under the impact of SCF, a portion of c‐kit positive precursors lying immediately around the ganglia differentiate into ICC, while the rest differentiate into SMC.

The Dome Wall of Bladder Acts as a Pacemaker Site in Detrusor Instability in Rats.

BackgroundThe aim of this study was to confirm that the interstitial cells of Cajal (ICCs) in the dome wall of the bladder are pacemaker cells, and that the dome wall of the bladder acts as a pacemaker site in the detrusor instability (DI) rat model.Material/MethodsThe model of DI in Wistar rats was established and urodynamic studies measuring the bladder volume and pressure were performed. The detrusor excitability was investigated using the amplitude and frequency of phasic contraction of strips. The localization and quantity of ICCs was identified by immunohistochemistry and c-KIT protein expression in the rat bladder. PCR assay and Western blot were used to assess the expression of HCN2 and Cx43.ResultsThe bladder capacity, residual volume, voiding volume, and maximum voiding pressure were significantly increased in the DI group. The contraction frequency and amplitude of the strips from the dome of the bladder in the DI group were higher than the triangle, body, and base parts. Both the concentration of c-KIT positive ICCs cells and expression of the c-KIT protein in the dome wall were higher than in other parts of the bladder. The expression of HCN2 and Cx43 in each part of the DI rat group were obviously higher than each part in the control group. Compared to the body, base, and triangle parts, the expression of HCN2 and Cx43 in the dome wall were obviously higher in the DI group.ConclusionsThe quantity of ICCs was higher in the dome wall and the dome wall of bladder acts as a pacemaker site in the DI rat model.

Anorectal Malformations: Histomorphological and Immunohistochemical Evaluation of Neuronal Dysfunction.

Objective :The patients with anorectal malformations (ARM) have been identified with specific and non-specific pathological changes. The present study was conducted with the aim to study histomorphological changes and various immunohistochemical (IHC) markers (calretinin, S-100, CD117) in intestinal wall specimens to assess neuronal dysfunction in ARM patients.Material and methods :Thirty children having ARM were included in our study. In all the cases, a representative biopsy was received. The tissue sections were processed and wax blocks were prepared. Various histopathological changes were examined on routine H&E. Representative sections were further subjected to IHC staining for ganglion cells (calretinin), interstitial cells of Cajal (CD117) and nerve bundles (S-100 protein). Descriptive variables were analyzed to assess neuronal dysfunction in cases of ARM. Chi-square was used to compare the categorical values. P-value <0.05 was accepted as statistically significant.Results :Biopsies were studied for histological changes using H&E stain. The most frequently observed histological finding in mucosa was inflammation and congestion in 87% and 67% of cases respectively. Disrupted muscularis mucosa was observed in 60%, eroded mucosa in 57%, and hemorrhage in 40% of cases. Submucosal inflammation and congestion were most common finding observed in submucosa in 87% and 80% cases respectively. CD117 was used to demonstrate altered density and distribution of interstitial cells of Cajal (ICC) in cases of ARM. Majority of them belong to grade 2+ category (n=17, 57%) followed by grade 1+ (n=8, 17%) for ICC cells. Altered density and distribution of ICC was observed in ARM which was statistically significant (p=0.02).Conclusion :The malformed segments in ARM show various specific and non-specific histomorphological changes. Examination of H&E sections along with IHC stains evaluation can minimize need for repeated biopsies and unnecessary radical treatment. CD117 immunohistochemistry is reliable adjunctive test in evaluation of ICC in motility disorders of bowel. Calretinin is good marker for identification of ganglion cells. In ARM, density and distribution of ICCs is significantly altered which can explain postoperative dysmotility.

Diabetic and idiopathic gastroparesis is associated with loss of CD206-positive macrophages in the gastric antrum.

Animal studies have increasingly highlighted the role of macrophages in the development of delayed gastric emptying. However, their role in the pathophysiology of human gastroparesis is unclear. Our aim was to determine changes in macrophages and other cell types in the gastric antrum muscularis propria of patients with diabetic and idiopathic gastroparesis. Full thickness gastric antrum biopsies were obtained from patients enrolled in the Gastroparesis Clinical Research Consortium (11 diabetic, 6 idiopathic) and 5 controls. Immunolabeling and quantitative assessment was done for interstitial cells of Cajal (ICC) (Kit), enteric nerves protein gene product 9.5, neuronal nitric oxide synthase, vasoactive intestinal peptide, substance P, tyrosine hydroxylase), overall immune cells (CD45) and anti-inflammatory macrophages (CD206). Gastric emptying was assessed using nuclear medicine scintigraphy and symptom severity using the Gastroparesis Cardinal Symptom Index. Both diabetic and idiopathic gastroparesis patients showed loss of ICC as compared to controls (Mean [standard error of mean]/hpf: diabetic, 2.28 [0.16]; idiopathic, 2.53 [0.47]; controls, 6.05 [0.62]; P=.004). Overall immune cell population (CD45) was unchanged but there was a loss of anti-inflammatory macrophages (CD206) in circular muscle (diabetic, 3.87 [0.32]; idiopathic, 4.16 [0.52]; controls, 6.59 [1.09]; P=.04) and myenteric plexus (diabetic, 3.83 [0.27]; idiopathic, 3.59 [0.68]; controls, 7.46 [0.51]; P=.004). There was correlation between the number of ICC and CD206-positive cells (r=.55, P=.008). Enteric nerves (PGP9.5) were unchanged: diabetic, 33.64 (3.45); idiopathic, 41.26 (6.40); controls, 46.80 (6.04). Loss of antral CD206-positive anti-inflammatory macrophages is a key feature in human gastroparesis and it is associates with ICC loss.

Relationship between colonic function change and interstitial cells of Cajal in rats with spinal cord injury

Objective To investigate the correlation of colonic function change with interstitial cells of Cajal (ICC) in rats with spinal cord injury and further evaluate the mechanism of intestinal dysfunction after spinal cord injury. Methods Using the modified Allen’s device, experimental spinal cord injury was induced by dropping a 10 g weight from the height of 25 cm on the T10 segment. A total of 10 male adult SD rats were divided into normal group (n=20), sham-operated group(n=20) and injury group (n=60), according to the random number table. At postoperative 1, 2 and 4 weeks, proximal colon tissues in each group were collected for morphological study using HE staining, bioelectricity study, ICC count and neuron absorbance value using double-labeling immunofluorescence staining, and expression of c-kit protein in ICC using Western blot method. Results Proximal colon epithelial cells arranged neatly in normal and sham-operated groups, while the lodging and shedding of villus epithelial cells and increased thickness of mucous layer and muscular layer were seen in injury group. Bioelectricity in injury group disordered with large amplitude variation and unstable waveform, compared to the regular biological activity in normal and sham-operated groups. Intramuscular ICC cell count in injury group was 57.38±4.69 at 1 week, 32.26±3.62 at 2 weeks and 25.07±3.05 at 4 weeks, significantly less than that in normal and sham-operated groups(P<0.05). At 2 weeks, mean absorbance value of the neuron in injury group (71.46±4.69) was less than that in normal and the sham-operated groups (114.30±24.44, 108.11±26.46)(P<0.05). Expression of c-kit protein in ICC cells was 0.745±0.017 at 1 week, 0.492±0.480 at 2 weeks and 0.409±0.032 at 4 weeks, significantly less than that in normal and sham-operated groups (P<0.05). Conclusion Colonic function in rats presents significant changes after spinal cord injury, and the changes may relate to the decrease of intramuscular ICC cell count and c-kit level in the colon. Key words: Intestines; Interstitial cells of Cajal; Spinal cord injures

Covering the Cover

Covering the Cover

Revised role of interstitial cells of Cajal in cholinergic neurotransmission in the gut

Revised role of interstitial cells of Cajal in cholinergic neurotransmission in the gut

Differential expression of genes related to purinergic signaling in smooth muscle cells, PDGFRα‐positive cells, and interstitial cells of Cajal in the murine colon

Purinergic signaling provides regulation of colonic motility. Smooth muscle cells (SMC), interstitial cells of Cajal (ICC), and platelet-derived growth factor receptor α-positive (PDGFRα(+) ) cells are electrically coupled and form a functional (SIP) syncytium that constitutes the receptive field for motor neurotransmitters in the tunica muscularis. Each cell type in the SIP syncytium has specialized functions in mediating motor neurotransmission. We compared gene transcripts for purinergic receptors and membrane-bound enzymes for purine degradation expressed by each cell type of the SIP syncytium. Fluorescence-activated cell sorting (FACS) was used to purify SMC, ICC, and PDGFRα(+) cells from mixed cell populations of colonic muscles dispersed from reporter strains of mice with constitutive expression of green fluorescent proteins. Differential expression of functional groups of genes related to purinergic signaling was determined by quantitative reverse transcription-polymerase chain reaction (qRT-PCR). We detected marked phenotypic differences among SMC, ICC, and PDGFRα(+) cells. Substantial numbers of genes of importance in purinergic neurotransmission were enriched in PDGFRα(+) cells in relation to SMC and ICC. Notably, genes related to mediating effects and extracellular biotransformation of enteric purinergic inhibitory neurotransmitters were strongly expressed by PDGFRα(+) cells. Our results demonstrate differential expression of genes for proteins involved in purinergic signaling in the SIP syncytium. These results may further clarify the specific functions of each cell type, identify novel biomarkers for postjunctional cells, and provide hypotheses for further studies to understand the physiological roles of cells of the SIP syncytium.

163 Hyperglycemia-Induced Hyperplasia of Interstitial Cells of Cajal (ICC) and ICC Stem Cells (ICC-SC) Is Associated With Accelerated Gastric Emptying in Obese Diabetic LeprDb/Db Mice

Background & Aims: ICC depletion is the most common cellular change in diabetic gastroparesis. However, in up to 22% of diabetic patients with gastric symptoms, gastric emptying (GE) is accelerated, rather than delayed. The fate of ICC in these patients is unclear. Previously we reported ICC and ICC-SC hyperplasia in hyperinsulinemic, diabetic Lepr mice. Here, we studied the relationship between GE of solids and ICC/ICC-SC numbers, and investigated the contribution of insulin/IGF1-dependent Kit ligand (Kitl) expression and hyperglycemia-induced ERK MAPK activation to ICC/ICC-SC hyperplasia. Methods: Lepr (n=32) and agesexand strain-matched controls (n=30) were studied 13-65 weeks after the onset of diabetes. ICC and ICC-SC were quantified by flow cytometry. Serum insulin was measured by enzyme immunoassay. Oxidative stress was determined by measuring serum malondialdehyde (MDA) and gastric 8OHdG. GE of solids was analyzed by 13C breath test. Gene expression was studied by qRT-PCR and WB. Effects of high glucose were investigated in murine gastric ICC primary cultures, a conditionally immortalized cell line derived from murine gastric ICC (ICL2A), and in an ICC-SC line isolated from the mouse stomach (2XSCS2F10). ERKMAPK signaling was evaluated byWB and pharmacological inhibition of MAPKK with PD98059. Cell proliferation and apoptosis were determined byMTS assay andCaspase Glo-3/7 assay, respectively. Results: Leprmice had significantly higher blood glucose (median[IQR]: 515[462;577] vs. 124[115;134] mg/dL; P,0.001) and serum insulin levels. Serum MDA and gastric 8OHdG were moderately increased (2.4and 2.2-fold, respectively, P,0.001). In Lepr mice, ICC and ICC-SC increased 2.0±0.1-fold (P,0.001) and 1.5±0.3-fold (P,0.05), respectively, and GE was accelerated (T1/2: 67±10 vs. 100±11 min; P,0.05). GE was similarly accelerated in Kit mice with generalized ICC hyperplasia due to an activating Kit mutation. In Lepr mice, total/soluble Kitl mRNA and Kitl protein were reduced. High glucose (500 mg/dL) significantly increased the numbers of primary ICC and stimulated proliferation and ERK MAPK phosphorylation in ICL2A and 2XSCS2F10 cells. PD98059 (20 μM) inhibited cell proliferation induced by high glucose without affecting basal proliferation. In contrast, osmotic stress induced by mannitol had no effect on ICC numbers, cell proliferation and ERK MAPK phosphorylation. ICC and ICC-SC were resistant to apoptosis induced by hyperglycemia at levels seen in Lepr mice. Conclusions: In the absence of major oxidative stress, hyperglycemia induces ICCSC and ICC hyperplasia via the ERK MAPK pathway even in the presence of reduced Kitl signaling. ICC hyperplasia, in turn, leads to accelerated GE and may contribute to gastric symptoms in a subset of diabetic patients. Grant support: NIH DK58185, DK68055.