Brian M. Cain scite author profile

In order to assess the possible role of carboxypeptidase E (Cpe) in pro-CCK processing, tissues from the Cpe(fat)/Cpe(fat) mice were analyzed for CCK content and molecular forms using specific RIAs directed against different portions of the prohormone. Levels of amidated CCK were decreased by about 74% in whole brain of Cpe(fat)/Cpe(fat) mice in comparison to control mice, while levels of amidated CCK in intestine were only reduced by about 36%. In contrast, using an antiserum specific for CCK Gly Arg Arg, Cpe(fat)/Cpe(fat) mice brain had about 13-fold higher levels of this peptide relative to controls, while levels were identical in mutant and control duodenal tissue. This study demonstrates a regional difference in the involvement of Cpe in pro-CCK processing. The accumulation of CCK Gly Arg Arg in Cpe(fat)/Cpe(fat) brains provides definitive proof that the dibasic cleavage of the carboxyl terminus of pro CCK occurs on the carboxyl terminal of the dibasic, between the Arg and Ser as well as confirming that amidated CCK 8 in brain originates from CCK 8 Gly Arg Arg rather than from larger amidated peptides like CCK 22 or CCK 33. The Cpe(fat)/Cpe(fat) mouse phenotype obviously involves multiple endocrine defects, however, it is tempting to speculate that this severe CNS deficiency in CCK 8 may be related to the adult-onset obesity seen in this mutant mouse.

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Distribution and colocalization of cholecystokinin with the prohormone convertase enzymes PC1, PC2, and PC5 in rat brain

Cain

Connolly

Blum

et al. 2003

J of Comparative Neurology

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During posttranslational processing to generate CCK 8, pro-cholecystokinin (CCK) undergoes endoproteolytic cleavage at three sites. Several studies using endocrine and neuronal tumor cells in culture and recombinant enzymes and synthetic substrates in vitro have pointed to the subtilisin/kexin-like enzymes prohormone convertase (PC) 1, PC2, and PC5 as potential candidates for these endoproteolytic cleavages. In these experimental models, they all appear to be able to cleave pro-CCK to make the correct products. One rodent model has provided information about the role of PC2. PC2 knockout mouse brains had less CCK 8 than wild-type, although a substantial amount of CCK was still present. The degree to which CCK levels were reduced in these mice was regionally specific. These data indicated that PC2 is important for normal production of CCK but that it is not the only endoprotease that is involved in CCK processing. To evaluate whether PC1 and PC5 are possible candidates for the other enzymes involved in CCK processing, the distribution of PC1, PC2, and PC5 mRNA was studied in rat brain. Their colocalization with CCK mRNA was examined using double-label in situ hybridization. PC2 was the most abundant of these enzymes in terms of the intensity and number of cells labeled. It was widely colocalized with CCK. PC1 and PC5 mRNA-positive cells were less abundant, but they were also widely distributed and strongly colocalized with CCK in the cerebral cortex, hippocampus, amygdala, ventral tegmental area, and substantia nigra zona compacta. The degree of colocalization of the enzymes with CCK was regionally specific. It is clear that PC1 and PC5 are extensively colocalized with CCK and could be participating in CCK processing in the rat brain and may be able to substitute for PC2 in its absence. These three enzymes may represent a redundant system to ensure production of biologically active CCK.

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PC2 and 7B2 Null Mice Demonstrate That PC2 Is Essential for Normal Pro-CCK Processing

Vishnuvardhan

Connolly

Cain

et al. 2000

Biochemical and Biophysical Research Communications

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Brian M. Cain

Transport characterization of membranes for immunoisolation

Cholecystokinin (CCK) Levels Are Greatly Reduced in the Brains But Not the Duodenums of Cpefat/Cpefat Mice: A Regional Difference in the Involvement of Carboxypeptidase E (Cpe) in Pro-CCK Processing

Distribution and colocalization of cholecystokinin with the prohormone convertase enzymes PC1, PC2, and PC5 in rat brain

PC2 and 7B2 Null Mice Demonstrate That PC2 Is Essential for Normal Pro-CCK Processing

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