Doctoral Thesis
Refine
Document Type
- Doctoral Thesis (2) (remove)
Language
- Multiple languages (2) (remove)
Has Fulltext
- yes (2)
Is part of the Bibliography
- no (2)
Keywords
Institute
Die vorliegende Arbeit untersucht die Relevanz des Intermediärfilamentes Zytokeratin 15 (K15) als potentiellen epithelialen Stammzellmarker im Darm und den Einfluss K15 positiver Zellreihen auf die Krypta Homöostase.
Zwei Hauptstammzellpools regulieren den schnellen Zellumsatz im Darmepithel. Dies sind einerseits schnell proliferierende Lgr5 positive Stammzellen, welche zwischen den Paneth-Zellen an der Krypta-Basis vorgefunden werden. Anderseits gibt es vermutlich langsamer wachsende Bmi1 positive Zellen, welche sich an der +4-Position oberhalb der Krypta-Basis befinden. Im Haarfollikel und im Ösophagusepithel stellt das Intermediärfilament K15 einen Marker für Stammzellen dar, die zur Gewebereparatur beitragen. In dieser Arbeit haben wir gezeigt, dass K15 im Darm langlebige Kryptazellen mit Multipotenz- und Selbsterneuerungspotenzial markiert. K15 positive Krypta-Zellen sind resistent gegen hochdosierte ionisierende Strahlung und tragen zur Kryptaexpansion bei. Die hier vorgestellten Ergebnisse zeigen nun erstmals im Darm eine langlebige, multipotente K15 exprimierende Kryptazellpopulation, die eine Selbsterneuerungskapazität besitzt. Insbesondere führt der Verlust des Tumorsuppressor Gens Apc in K15 positiven Zellen zur Adenombildung, die potentiell zum Adenokarzinomen fortschreiten können. Wir erörtern die Hypothese, dass K15 eine Gruppe langlebiger, strahlenresistenter Stammzellen markiert, die die Homöostase der Krypta und die Regenerationsfähigkeit maßgeblich beeinflussen.
Acute pancreatitis (AP) is one of the most common and widely increasing gastrointestinal
diseases leading to hospitalization without specifically available therapy. Among various
etiologies, biliary origin is the most common cause. However, the effects of BAs, given
systemically, on AP remains elusive. A detailed characterization of the mechanisms through
which BAs contribute to the pathogenesis and severity of AP will greatly improve our
understanding of the underlying pathophysiology and may facilitate the development of
treatment, early identification of complications, and prevention for AP. In this view, the roles of
different circulating BAs using in vitro-to-in vivo models were investigated and the underlying
mechanisms through which BAs modulate the severity of AP were addressed. The impact of
hydrophobic and hydrophilic BAs on both, isolated acinar cells and different animal models
induced by repetitive injections of caerulein or L-arginine, ligation of the pancreatic duct (PDL)
or combined bile and pancreatic duct ligation (BPDL), were tested. Disease severity was
assessed by biochemical and histological parameters. Serum CCK concentrations were
determined by enzyme immunoassay. The binding of CCK1 receptor was measured using
fluorescent-labeled CCK. Human BA profiles in AP patients were quantified and that were
correlated with etiology as well as clinical course. In acinar cells, hydrophobic BAs mitigated
the damaging effects of CCK. The same BAs further enhanced pancreatitis in L-arginine and
PDL-based pancreatitis whereas they ameliorated pancreatic damage in the caerulein and
BPDL models, in which CCK was involved. The chemical effect of BAs on protease trypsin
was also observed, however, it was similar between hydrophobic and hydrophilic compounds.
Mechanistically, the binding affinity of the CCK1 receptor was significantly reduced by
hydrophobic BAs. In patients, the sum of hydrophobic but not hydrophilic BAs correlated with
the etiology and severity of AP.
Post-endoscopic retrograde cholangiopancreatography (ERCP) pancreatitis (PEP) was
reported to be related with CCK and several pharmaceutical agents have been used to prevent
this most common and potentially severe complication, but those are of limited benefit. In this
regard, our multicenter multinational randomized control trial was designed to compare the
efficacy of indomethacin and N-acetylcysteine (NAC) for the prevention of PEP. A total of 432
ERCP patients from 6 countries were recruited and randomly assigned to receive either NAC
(group A, 84 cases), indomethacin (group B, 138 cases), NAC + indomethacin (group C, 115
cases) or placebo (group D, 95 cases) two hours before procedure. The rate of PEP in groups
A, B and C in comparison with placebo were 10.7%, 17.4%, 7.8% vs 20% (p = 0.08, 0.614 &
0.01, respectively).
Among complications of AP, infection of pancreatic necrosis is one of the most severe
consequence that mostly necessitates interventional therapy. A model to identify parameters
that are useful for the prediction of infected necrosis at an early stage was developed. A
retrospective analysis was conducted in 705 AP patients, who underwent contrast-enhanced computed tomography (CT scan). Both laboratory and clinical parameters were analyzed for
an association with infected pancreatic necrosis, which was microbiologically confirmed. A
logistic regression analysis with stepwise inclusion of significant variables was used to develop
a prediction model. We tested the model quality by receiver operating characteristics analysis.
We found a significant association between 11 parameters with an infection including albumin,
creatinine, C-reactive protein (CRP), and alcoholic etiology, which were independent variables
in the final predictive model with an area under the curve of 0.819.
In the same cohort in which we developed the prediction model above, 89 AP cases with
necrotic complications diagnosed by CT scan were identified. These complications with high
morbidity and mortality required endoscopic drainage, which possibly accompanies severe
adverse events. All complications which occurred in patients who underwent those procedures
and their associated features were retrospectively analyzed. Positive necrosis cultures and a
larger diameter of the intervened necroses were significant factors associated with the
occurrence of adverse events, in which the former was the most significant predictor with Odds
Ratio of 6.1.
The entire work demonstrated that hydrophobicity of BAs and the involvement of CCK are
relevant for the clinical course of AP. Systemic BAs may affect the severity of AP by interfering
with the binding of the CCK1 receptor. Oral NAC is effective for prevention of PEP and the
combination of NAC plus indomethacin resulted in the lowest PEP rate. A model using albumin,
creatinine, CRP, and alcoholic etiology can differentiate infected and sterile pancreatic
necrosis and control of infection is crucial for successful endoscopic drainage therapy in
complicated AP. The exact pathophysiologic mechanisms, especially in CCK-related pathways,
and the potential impact of BAs in human AP, in particular in preventing PEP, need to be investigated in further studies.