Hiroaki Fukuzawa

Candidate markers for stem and early progenitor cells, Musashi‐1 and Hes1, are expressed in crypt base columnar cells of mouse small intestine

Musashi‐1, a neural RNA‐binding protein, is important for maintaining neural stem cells. Both Musashi‐1 and Hes1, a transcriptional factor regulated by Musashi‐1, are expressed in the small intestine. Here we show that Musashi‐1 is present in a few epithelial cells just above the Paneth cells in the small intestinal crypt, the putative position of stem cells, whereas Hes1 is expressed in lower crypt cells just above the Paneth cells, including Musashi‐1‐positive cells. Musashi‐1 and Hes1 were not expressed in Paneth cells. Notably, Musashi‐1 and Hes1 were coexpressed in the crypt base columnar cells located between the Paneth cells. These findings suggest that not only the cells just above Paneth cells but also the crypt base columnar cells between the Paneth cells have stem cell characteristics.

Involvement of Tumor Necrosis Factor Alpha in Intestinal Epithelial Cell Proliferation Following Paneth Cell Destruction

Background : An intravenous injection of diphenylthiocarbazone (dithizone), a zinc chelator, induces selective killing of Paneth cells which have a large amount of zinc in their cytoplasmic granules. A transient wave of intestinal epithelial cell proliferation occurs at 12 h after the injection. Paneth cells have tumor necrosis factor (TNF)- α protein in their cytoplasmic granules, and TNF- α has a proliferative effect on intestinal epithelial cells in vitro. The aim of this study is to clarify the in vivo role of TNF- α in intestinal epithelial cell proliferation using a dithizone-treated rat model. Methods : Male Wistar rats received a dithizone (100 mg/kg of body weight) injection with or without TNF- α inhibitor, pentoxifylline (100 mg/kg), neutralizing anti-TNF- α antibody (2 mg/kg), or nuclear transcription factor s B (NF- s B) inhibitors; pyrrolidine dithiocarbamate (100 mg/kg) or N -acetyl-L-cystein (100 mg/kg). The activation of NF- s B was examined by the electrophoretic mobility shift assay, and cellular proliferation by BrdU labeling. Results : Without any inhibitors, dithizone treatment evoked NF- s B activation in the ileal mucosa with its peak level at 2 h after the injection. TNF- α inhibition reduced the NF- s B activation, and blocked a transient wave of epithelial cell proliferation 12 h after the injection. NF- s B inhibitors also reduced the NF- s B activation and epithelial cell proliferation. Conclusions : TNF- α released from degenerated Paneth cells was, in part, responsible for the intestinal cell proliferation through the activation of NF- s B, suggesting its proliferative effect on intestinal epithelial cells.

Identification of xanthine dehydrogenase/xanthine oxidase as a rat Paneth cell zinc-binding protein

Paneth cells are zinc-containing cells localized in small intestinal crypts, but their function has not been fully elucidated. Previously, we showed that an intravenous injection of diphenylthiocarbazone (dithizone), a zinc chelator, induced selective killing of Paneth cells, and purified a zinc-binding protein in Paneth cells. In the present study, we further characterized one of these proteins, named zinc-binding protein of Paneth cells (ZBPP)-1. Partial amino acid sequences of ZBPP-1 showed identity with rat xanthine dehydrogenase (XD)/xanthine oxidase (XO). Anti-rat XD antibody (Ab) recognized ZBPP-1, and conversely anti ZBPP-1 Ab recognized 85 kDa fragment of rat XD in Western blotting. Messenger RNA and protein levels of XD were consistent with our previous data on the fluctuation of Paneth cell population after dithizone injection. Thus, ZBPP-1 is an 85 kDa fragment of XD/XO in Paneth cells. XD/XO in Paneth cells may play important roles in intestinal function.

Enhanced expression of transforming growth factor (TGF) -α precursor and TGF-β1 during paneth cell regeneration

An intravenous injection of diphenylthiocarbazone (dithizone), a zinc chelator, induces selective killing and rapid regeneration of Paneth cells, which have a large amount of zinc in their cytoplasmic granules. We examined the expression pattern of transforming growth factor (TGF) -α and TGF-β1 in this regenerative process. Messenger RNA expression of TGF-α and TGF-β1 reached their peaks at 12 and 24 hr after dithizone injection, respectively. Protein expression of TGF-α precursor and TGF-β1 increased to a maximum at 24 and 72 hr, respectively. Their immunoreactivities were localized in the epithelial cells in the vicinity of Paneth cells, whereas they were prominent in the upper half of the crypts in control rats. In conclusion, destruction of Paneth cells induced TGF-α precursor expression, followed by an increase of TGF-β1 especially in the crypt bases. This unique expression pattern of two growth factors may be involved in rapid regeneration of Paneth cells.

Growth promoting effect of thioredoxin on intestinal epithelial cells

Paneth cells are located at the bases of intestinal crypts, and their cytoplasmic granules contain large amounts of zinc. We previously showed that administration of diphenylthiocarbazone (dithizone), a zinc chelater, to rats induced the selective death of Paneth cells. This was followed by a transient wave of epithelial cell proliferation in the entire crypts. In the study described here, we again applied this experimental model in an attempt to identify novel growth-promoting factors in the small intestine. Male Wistar rats were injected with dithizone and killed 6 hr later. Messenger RNAs (mRNAs) were extracted from the terminal ileum for the construction of a cDNA library. This library was then transfected into the human intestinal cell line Caco-2, and the cells that continued to grow in the medium containing only 1% FBS were cloned. One of the cDNA sequences identified from those transfection experiments was the full-length rat thioredoxin (TRX) gene. To confirm the growth-promoting effect of this cDNA, we transfected it into Caco-2 cells again. These clones proliferated in the medium containing only 1% FBS, while the control clones failed to show any growth. Transient oxidative stress exerted by the addition of oxidative reagents diamide and hydrogen peroxide partially suppressed the growth of TRX-transfected cells. Northern hybridization analysis revealed that TRX expression in rat ileum after dithizone treatment was altered in accordance with intestinal epithelial regeneration in the crypts. Single-cell RT-PCR also showed TRX mRNA expression in Paneth cells. These studies identify rat thioredoxin as a growth-promoting factor for intestinal epithelial cells.

Involvement of tumor necrosis factor αin intestinal epithelial cell proliferation following paneth cell destruction

BACKGROUND An intravenous injection of diphenylthiocarbazone (dithizone), a zinc chelator, induces selective killing of Paneth cells which have a large amount of zinc in their cytoplasmic granules. A transient wave of intestinal epithelial cell proliferation occurs at 12 h after the injection. Paneth cells have tumor necrosis factor (TNF)-alpha protein in their cytoplasmic granules, and TNF-alpha has a proliferative effect on intestinal epithelial cells in vitro. The aim of this study is to clarify the in vivo role of TNF-alpha in intestinal epithelial cell proliferation using a dithizone-treated rat model. METHODS Male Wistar rats received a dithizone (100 mg/kg of body weight) injection with or without TNF-alpha inhibitor, pentoxifylline (100 mg/kg), neutralizing anti-TNF-alpha antibody (2 mg/kg), or nuclear transcription factor kappaB (NF-kappaB) inhibitors: pyrrolidine dithiocarbamate (100 mg/kg) or N-acetyl-L-cystein (100 mg/kg). The activation of NF-kappaB was examined by the electrophoretic mobility shift assay, and cellular proliferation by BrdU labeling. RESULTS Without any inhibitors, dithizone treatment evoked NF-kappaB activation in the ileal mucosa with its peak level at 2 h after the injection. TNF-alpha inhibition reduced the NF-kappaB activation, and blocked a transient wave of epithelial cell proliferation 12 h after the injection. NF-kappaB inhibitors also reduced the NF-kappaB activation and epithelial cell proliferation. CONCLUSIONS TNF-alpha released from degenerated Paneth cells was, in part, responsible for the intestinal cell proliferation through the activation of NF-kappaB, suggesting its proliferative effect on intestinal epithelial cells.