Variation of gastric lipase secretion in the Heidenhain pouch of the cat

Descroix-Vagne, M.; Perret, J. P.; Baba, Minoru; Bosshard, A.; Dechelette, M.A.; Gros, Isabelle; Desvigne, A; Rakotomalala, H.

doi:10.3109/13813459308998134

Cited by 5 publications

(6 citation statements)

References 16 publications

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“…Using specific polyclonal antibodies to human gastric lipase (HGL) and fundic pepsinogen (Pg5), the same group focused their efforts on establishing the cellular origin of both digestive enzymes in the human stomach. These results indicated that HGL is always colocalized with Pg5 in chief cells of the fundic mucosa (Moreau et al, 1989) and never in mucus-type nor cells in the upper part of the gland as previously reported in dog (Carrière et al, 1992), cat (Descroix-Vagne et al, 1993), and rabbit (Moreau et al, 1990) gastric biopsies. These important findings established the existence of a unique feature for the human adult gastric mucosa regarding the cellular distribution of pepsinogen (Pg5) and gastric lipase (HGL).…”

Section: Tissular Origin and Cellular Distribution Of Gastric Digestisupporting

confidence: 66%

“…Indeed, studies performed with dog and cat models revealed the presence of pepsinogen in chief cells located at the bottom of the fundic glands (Carrière et al, 1992;Descroix-Vagne et al, 1993), whereas gastric lipase was localized to mucoustype cells of the pit compartment in both species. Of note, in the fundic mucosa, no colocalization of pepsinogen and gastric lipase was reported.…”

Section: Tissular Origin and Cellular Distribution Of Gastric Digestimentioning

confidence: 99%

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Establishment of culture systems of human gastric epithelium for the study of pepsinogen and gastric lipase synthesis and secretion

Basque

Ménard

2000

Microsc. Res. Tech.

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A main purpose of gastric secretion pertains to the digestion of dietary proteins and involves the release of pepsinogens by the fundic and antral mucosa. Over the last decade, data on human gastric physiology has expanded to equally include a significant role in fat digestion. Characteristics of human gastric lipase (HGL) such as optimum acid pH, resistance to proteolysis and non requirement of bile salts or cofactors, are advantageous in gastric lipolysis. Furthermore, the importance of HGL increases in the context of perinatal physiology and pathological situations where secretion of HGL could compensate, to some extent the depressed pancreatic activities. It is therefore important to understand the regulatory mechanisms involved in the synthesis and secretion of human gastric digestive enzymes. The establishment of an organ culture technique as well as a novel primary culture system of human gastric epithelium permitted us to demonstrate that Pg5 and HGL are colocalized in human chief cells and both digestive enzymes are efficiently synthesized and secreted in explants and primary cultures. Pepsin activity rises at the cellular level while its secretion remains constant. In contrast, cellular lipase activity drastically diminishes while being preferentially secreted. This nonparallelism supports the concept that Pg5 and HGL are differently regulated in culture. Furthermore, EGF downregulates HGL expression at the mRNA level via the p42/44MAPK pathway without affecting Pg5. Future studies should be designed to fully understand the cellular and molecular mechanisms involved in regulating HGL activity in normal and pathological conditions. Microsc. Res. Tech. 48:293–302, 2000 © 2000 Wiley‐Liss, Inc.

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Section: Tissular Origin and Cellular Distribution Of Gastric Digestisupporting

confidence: 66%

Section: Tissular Origin and Cellular Distribution Of Gastric Digestimentioning

confidence: 99%

Establishment of culture systems of human gastric epithelium for the study of pepsinogen and gastric lipase synthesis and secretion

Basque

Ménard

2000

Microsc. Res. Tech.

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“…In humans, this function is assumed by the existence of a gastric lipase (HGL) co-localized with pepsinogen-5 (Pg5) in secretory granules [Moreau et al, 1988]. This co-localization is a unique feature of human gastric chief cells since both zymogens are either expressed in different gastric cell types [Carrie Áre et al, 1992;Descroix-Vagne et al, 1993] or distinct zymogenic cell populations [Bernadac et al, 1991] in animal models. Gastric triglyceride digestion is a prerequisite for optimal intestinal lipolysis [Carrie Áre et al, 1993].…”

mentioning

confidence: 99%

Gastric cancer cell lines as models to study human digestive functions

Basque

Chénard²,

Chailler

et al. 2001

J. Cell. Biochem.

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The present investigation aims at defining the functional status of several gastric cancer cell lines in order to assess their usefulness as adequate cellular models to study the regulation of gastric digestive functions. Compared to AGS, Hs746t and KATO-III cells, NCI-N87 exhibited an unique differentiation status. They formed coherent monolayers expressing E-cadherin and ZO-1 junctional proteins; their integrity and epithelial morphology were maintained at post-confluency for up to 10 days. All cell lines synthesized PAS-reactive (mucous-type) glycoconjugates. However, only NCI-N87 cells expressed MUC6 glycoprotein suggesting a mucopeptic phenotype. Immunostaining, enzymatic assays, Western blotting and Reverse Transcriptase polymerase chain reaction (RT-PCR) revealed that all cell lines contained varying levels of pepsinogen (Pg5) and human gastric lipase (HGL). Only NCI-N87 cells were able to express zymogens at higher levels, in granule-like structures, and to efficiently secrete both HGL and Pg5. The addition of epidermal growth factor (EGF) to post-confluent NCI-N87 cells, which exhibit an abundant membrane staining for EGF-receptors, modulated HGL activity without affecting Pg5. In conclusion, this investigation enlightens the potential usefulness of the gastric cell line NCI-N87 as a model for elucidating the cellular and molecular mechanisms involved in the regulation of human gastric epithelial functions.

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“…This suggests that consuming milk fat releases gastric lipase. Secretion of this enzyme can also be stimulated in adult animals including the cat if fed a diet extremely high in fat for at least 2 weeks (Bore1 et al, 1991;Descroix-Vagne et al, 1993). Weaned and adult animals examined in our study were fed canned food, which is known to Fig.…”

Section: Discussionmentioning

confidence: 83%

“…In a study on the effect of pharmacological releasers of lipase (pentagastrin and carbamylcholin) in adult cats, in accordance with our results, gastric lipase was localized in the surface mucous cells. However, in adult cats enzyme activity additionally can be found in the gastric chief cells (Descroix-Vagne et al, 1993). The reason for this is not known but can be speculated in a development-specific variation of lipase production.…”

Section: X80mentioning

confidence: 98%

Histochemical Demonstration of Lipase Activity in the Gastric Mucosa of the Cat

Knospe¹,

Plendl²

1997

Anat Histol Embryol

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The aim of the present study was to determine, histochemically, the onset and location of production of preduodenal lipase in fetal, suckling, weaned and adult cats. Strong enzymatic activity was localized in the surface mucous cells of the gastric mucosa in animals at postpartal day 1 after ingestion of milk. Activity of gastric lipase persisted as long as animals were nursed. No gastric lipase could be demonstrated in weaned and adult cats. Lingual lipase was not found at any developmental stage examined. Thus, in the newborn cat, lipase of the gastric mucosa is responsible for milk fat lipolysis.

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Variation of gastric lipase secretion in the Heidenhain pouch of the cat

Cited by 5 publications

References 16 publications

Establishment of culture systems of human gastric epithelium for the study of pepsinogen and gastric lipase synthesis and secretion

Establishment of culture systems of human gastric epithelium for the study of pepsinogen and gastric lipase synthesis and secretion

Gastric cancer cell lines as models to study human digestive functions

Histochemical Demonstration of Lipase Activity in the Gastric Mucosa of the Cat

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