Corrupted colonic crypt fission in carcinogen-treated rats

Dysplastic crypt-rings in tandem: A novel histologic parameter in tubular adenomas

Descriptions of the various dysplastic crypt phenotypes occurring in TA have remained unattended in the literature. Recently, new crypt-phenotypes, characterized by crypt rings in tandem (CRT), and by dysplastic crypt rings in tandem (DCRT) were described in IBD, and in in IBD-associated dysplasia, respectively. Here, we report the occurrence of DCRT in 40.4 % (n = 59) out of 146 consecutive tubular adenomas of the colorectum (TA). The number of DCRT varied: 10 TA had two DCRT, seven TA had three DCRT, two TA, four DCRT and the remaining two TA had ≥ five DCRT. The frequency of DCRT was influenced by TA-size; larger TA (≥ 5 mm) had significantly more DCRT than smaller TA (<5 mm). Conversely, the frequency of TA with DCRT was not influenced by age, gender, or localization. Since only 1 or 2 sections were available per TA, the number of DCRT in the entire TA should be higher than those shown in Results. Historical controls in human and rodent normal colorectum showed no CRT. Moreover, DCRT were not found in 781 historical non-polypoid colorectal adenomas. The present finding might encourage searching for DCRT, the final goal being to achieve a more elaborated microscopic narrative of TA, the most prevalent of all colorectal adenomas.

Crypt-rings in tandem detected in infectious colitis, in IBD and in IBD-associated noninvasive neoplasia

AIMS

Recently, eight novel histologic structures in colon mucosa with inflammation were described. Here, we assessed the frequency of one of them: crypt rings in tandem (CRT), in patients with infectious colitis (IC), IBD (ulcerative colitis; UC or Crohn colitis; CrC) and UC in remission (UCR). In addition, the frequency of dysplastic CRT (DCRT) in IBD-associated noninvasive neoplasia (IBDNIN) were also calculated.

METHODS

Colon biopsies in 578 cases were reviewed: 42 cases with IC, 280 with IBD (180 UC and 100 CrC), 100 UCR and the remaining 156, IBDNIN.

RESULTS

The proportions of CRT in IC was 16.7%, in IBD 14.3% %, in UCR 3%, and of DCRT in IBDNIN, 20%. No differences were recorded between the proportions of CRT in IC, UC and CrC. Conversely, the difference in CRT frequency between UC and UCR, and between CRT and DCRT were significant (P = 0.006, and p = 0.05, respectively).

CONCLUSIONS

CRT evolved in IC and in IBD. The finding of CRT in IC strongly suggest that those characteristic crypts were shaped at the early stages of mucosal inflammation. CRT persisted in IBD with protracted inflammation but plummeted in UCR, that is when the mucosal inflammation waned. The proportion of DCRT was significantly higher than that of CRT. It is submitted that DCRT might had developed in IBDNIN using CRT as scaffolds. This is the first study in which a characteristic pathologic aberration of cryptogenesis was tracked in colon biopsies from patients with IBD and with IBD-associated neoplastic transformation.

Two intertwined compartments coexisting in sporadic conventional colon adenomas

Sporadic conventional colon adenomas are microscopically built of 2 intertwined compartments: one on top, harboring the dysplastic tissue that defines their histo-biomolecular attributes, and the other below, composed of non-dysplastic crypts with corrupted shapes (CCS). The CCS of 306 colon adenomas revealed asymmetric, haphazardly-distributed proliferating cell-domains (PC). In contrast, the PC-domains in normal controls were symmetric, being limited to the lower thirds of the crypts. In 28% out of 501 sporadic conventional adenomas, foci of p53-upregulated dysplastic tissue were found. The CCS in 30% of 108 sporadic adenomas showed p53-upregulated single cells, suggesting mounting somatic mutations. No p53-upregulated cells were found in the crypts of controls. In polypoid adenomas, the mucosa of the stalk without dysplastic tissue on top disclosed CCS with asymmetrical PC-domains and single p53-upregulated cells. The latter observations suggested that CCS had developed prior to and not after the growth of the dysplastic tissue on top. CCS were also found below colon adenomas in carcinogen-treated rats. It is concluded that the 2 intertwined histo-biological compartments of sporadic conventional colon adenomas are probably interdependent components. These findings may open new directions aimed to uncover the link between the normal colonic mucosa and the histogenesis of, conventional adenomas.

Extracellular Matrix Mechanical Properties and Regulation of the Intestinal Stem Cells: When Mechanics Control Fate

Intestinal stem cells (ISC) are crucial players in colon epithelium physiology. The accurate control of their auto-renewal, proliferation and differentiation capacities provides a constant flow of regeneration, maintaining the epithelial intestinal barrier integrity. Under stress conditions, colon epithelium homeostasis in disrupted, evolving towards pathologies such as inflammatory bowel diseases or colorectal cancer. A specific environment, namely the ISC niche constituted by the surrounding mesenchymal stem cells, the factors they secrete and the extracellular matrix (ECM), tightly controls ISC homeostasis. Colon ECM exerts physical constraint on the enclosed stem cells through peculiar topography, stiffness and deformability. However, little is known on the molecular and cellular events involved in ECM regulation of the ISC phenotype and fate. To address this question, combining accurately reproduced colon ECM mechanical parameters to primary ISC cultures such as organoids is an appropriated approach. Here, we review colon ECM physical properties at physiological and pathological states and their bioengineered in vitro reproduction applications to ISC studies.

Chronic stress decreases ornithine decarboxylase expression and protects against 1,2-dimethylhydrazine-induced colon carcinogenesis

Biological response to stress depends on the type, timing, and severity of the stressor. Acute stressful environments may positively activate molecular and cellular mechanisms to favor adaptation; however, chronic stress is often associated with detrimental health effects. Colon cancer (CC) is one of the leading causes of death associated with cancer and has been mentioned as a stress-related disease. In the present work, the effect of chronic stress on the initial phase of CC was evaluated, and special emphasis was placed on ornithine decarboxylase (ODC) expression and polyamines for their role in hyperproliferative diseases. BALB/c mice (n = 5/group) were administered the pro-carcinogen 1,2-dimethylhydrazine (DMH) for 8 weeks (20 mg/kg body weight/week) to induce colon carcinogenesis, and then exposed for 4 weeks to two physical stressors: restraint and forced-swimming. Distal colon inflammatory lesions and histomorphological changes were evaluated by hematoxylin-eosin staining; plasma corticosterone levels, colon ODC expression, and urinary polyamines were determined by competitive ELISA, RT-qPCR, Western Blot, and HPLC, respectively. The short-term exposure to DMH triggered colon inflammation, initiated colon carcinogenesis and increased ODC expression; meanwhile, the exposure to chronic stress activated the hypothalamic-pituitary-adrenal (HPA) axis, elicited the production of plasmatic corticosterone, and decreased ODC expression. The exposure of DMH-treated mice to chronic stress counteracted the inflammatory effect of DMH and maintained ODC homeostasis. In early phase of carcinogenesis, the exposure of DMH-treated mice to chronic stress had a positive effect against colon inflammation and maintained ODC homeostasis. The cross-talk between corticosterone, ODC expression, and inflammation in a tumor environment is discussed.

Disparate cell proliferation and p53 overexpression in colonic crypts with normal epithelial lining found below the neoplastic canopy of conventional adenomas

We previously found colonic crypts with normal epithelial lining but with corrupted shapes (NECS) beneath the adenomatous tissue of conventional adenomas (CoAs). Here we assessed the distribution of proliferating cells (PCs) and explored the possible occurrence of p53‐upregulated cells in the NECS in a cohort of CoAs. Sections from 70 CoAs and from 12 normal colon segments were immunostained with the proliferation marker Ki67. In 60 of the 70 CoAs, additional sections were immunostained for the tumor suppressor p53 protein. NECS with asymmetric, haphazardly distributed single PC or PC clusters were recorded in 80% of the CoAs, with a continuous PC domain in one or both slopes of the crypts in 17%, and with haphazardly distributed single PCs in the remaining 3% of the CoAs. In the 12 normal segments (controls), the colon crypts demonstrated normal shapes with symmetric PC domains limited to the lower third portion of the crypts. In 30% of the 60 CoAs immunostained with p53 the NECS revealed haphazardly distributed p53‐upregulated cells, singly or in clusters. In sum, the apparently normal epithelium of the NECS beneath the adenomatous tissue of CoAs revealed an unprecedented relocation of the normal PC domains. This unexpected event and the occurrence of p53‐upregulated cells strongly suggest that the crypts beneath the neoplastic tissue of CoAs harbor somatic mutations. The accretion of putative mutated NECS beneath the neoplastic canopy of CoA emerges as a previously unaddressed major event, an event that might play an important role in the histogenesis of CoA in the human colon.

Corrupted Colonic Crypts Bordering Regenerating Mucosal Ulcers in Ulcerative Colitis

BACKGROUND/AIM

Histology in protracted ulcerative colitis (UC) discloses high numbers of chronic inflammatory cells and crypts with architectural distortions. In severe cases, ulcerations are frequently found. The histogenesis of colonic crypts with architectural distortions in UC remains elusive. A recent review of colectomy specimens from patients with UC revealed crypts surrounding mucosal ulcerations exhibiting severe architectural distortions. They were called corrupted colonic crypts, CCCs.

MATERIAL AND METHODS

Archival hematoxylin and eosin (H&E)-stained sections from three colectomies having several mucosal ulcers were selected for the study. The mucosa bordering mucosal ulcers was particularly scrutinized.

RESULTS

The review of 49 sections (mean=16.3, range=14-20) in the three colectomies revealed 60 ulcers (mean=20, range=13-27). The following CCC phenotypes were found bordering mucosal ulcers: with asymmetric lateral fission (n=11), with dual or three-foiled corrupted fission (n=19), with cystic dilatations (n=3), L-shaped crypts (n=7), T-inverted crypts (n=6), shoe-shaped crypts (n=3), horizontal crypts (n=14), multi-lobate crypts (n=2), and/or inter-connecting crypts (n=5).

CONCLUSION

The regeneration of ulcers in UC seems to proceed with neo-formation of corrupted crypts. In the same colectomies, none to occasional CCCs were found in large areas of the mucosa having severe chronic inflammation. Importantly, none of the occasional CCCs were found in other diseases of the colonic mucosa with chronic inflammation or in unspecific ulcers of the colon. Since neither chronic mucosal inflammation per se, nor unspecific ulcers of the colon are central for the formation of CCCs, it is suggested that crypt distortions of the non-ulcerated colonic mucosa in patients with UC might mirror formerly healed mucosal ulcerations.