Transfected mouse pituitary AtT-20 cells were used to examine the sorting of human prorenin to dense core secretory granules and the regulated secretory pathway. These cells secrete prorenin constitutively and sort a portion of the prorenin to secretory granules, where it is converted to active renin by proteolytic processing. Pulse-chase labeling of transfected AtT-20 cells demonstrated that regulated secretion of prorenin was prevented by: 1) the mutagenic deletion of the prosegment, 2) the premature proteolytic removal of the prosegment by a Golgi-resident processing protease, or 3) the mutation of the native cleavage site so as to prevent removal of the prosegment. In addition, expression of fusion proteins containing portions of the prorenin prosegment demonstrated that exposure of potential proteolytic cleavage sites was sufficient to confer cleavage-dependent regulated secretion of the corresponding protein. These data implicate the protease cleavage event in the regulated secretion of prorenin and are consistent with the involvement of a subclass of processing proteases in the sorting of certain proteins to secretory granules in AtT-20 cells.
Processing of Amyloid Precursor Protein in Human Primary Neuron and Astrocyte Cultures
Increased production of amyloid /3 peptide (A/3) is highly suspected to play a major role in Alzheimer's disease (AD) pathogenesis. Because A/I deposits in AD senile plaques appear uniquely in the brain and are fairly restricted to humans, we assessed amyloid precursor protein (APP) metabolism in primary cultures of the cell types associated with AD senile plaques: neurons, astrocytes, and microglia. We find that neurons secrete 40% of newly synthesized APP, whereas glia secrete only 10%. Neuronal and astrocytic APP processing generates five C-terminal fragments similar to those observed in human adult brain, of which the most amyloidogenic higher-molecular-weight fragments are more abundant. The level of amyloidogenic 4-kDa A/I exceeds that of nonamyloidogenic 3-kDa A/I in both neurons and astrocytes. In contrast, microglia make more of the smallest C-terminal fragment and no detectable A/I. We conclude that human neurons and astrocytes generate higher levels of amyloidogenic fragments than microglia and favor amyloidogenic processing compared with previously studied culture systems. Therefore, we propose that the higher amyloidogenic processing of APP in neurons and astrocytes, combined with the extended lifespan of individuals, likely promotes AD pathology in aging humans.
Human renin plays an important role in blood pressure homeostasis and is secreted in a regulated manner from the juxtaglomerular apparatus of the kidney in response to various physiological stimuli. Many aspects of the regulated release of renin (including accurate processing of prorenin to renin, subcellular targeting of renin to dense secretory granules, and regulated release of active renin) can be reproduced in mouse pituitary AtT-20 cells transfected with a human preprorenin expression vector. Using protein engineering, we have attempted to define the roles of various structures in prorenin that affect its production and trafficking to dense core secretory granules, resulting in its activation and regulated secretion. Replacement of the native signal peptide of human preprorenin with that of a constitutively secreted protein (immunoglobulin M) had no apparent effect on either the constitutive secretion of prorenin or the regulated secretion of active renin in transfected AtT-20 cells. Removal of the pro segment resulted in a marked reduction in total renin secretion, but did not prevent renin from entering the regulated secretory pathway. Single or combined mutations in the two glycosylation sites of human renin did not prevent its regulated secretion; however, the complete elimination of glycosylation resulted in a significant increase in the ratio of renin/prorenin secreted by the transfected cells. Thus, these results suggest that 1) at least one of the sequences that target human renin to dense secretory granules lies within the protein moiety of active renin; 2) the presence of the pro segment is important for efficient prorenin and renin production; and 3) glycosylation can quantitatively affect the proportion of active renin secreted.
Rationale: Monocytes are key effectors of the mononuclear phagocyte system, playing critical roles in regulating tissue homeostasis and coordinating inflammatory reactions, including those involved in chronic inflammatory diseases such as atherosclerosis. Monocytes have traditionally been divided into 2 major subsets termed conventional monocytes and patrolling monocytes (pMo) but recent systems immunology approaches have identified marked heterogeneity within these cells, and much of what regulates monocyte population homeostasis remains unknown. We and others have previously identified LYN tyrosine kinase as a key negative regulator of myeloid cell biology; however, LYN’s role in regulating specific monocyte subset homeostasis has not been investigated. Objective: We sought to comprehensively profile monocytes to elucidate the underlying heterogeneity within monocytes and dissect how Lyn deficiency affects monocyte subset composition, signaling, and gene expression. We further tested the biological significance of these findings in a model of atherosclerosis. Methods and Results: Mass cytometric analysis of monocyte subsets and signaling pathway activation patterns in conventional monocytes and pMos revealed distinct baseline signaling profiles and far greater heterogeneity than previously described. Lyn deficiency led to a selective expansion of pMos and alterations in specific signaling pathways within these cells, revealing a critical role for LYN in pMo physiology. LYN’s role in regulating pMos was cell-intrinsic and correlated with an increased circulating half-life of Lyn -deficient pMos. Furthermore, single-cell RNA sequencing revealed marked perturbations in the gene expression profiles of Lyn −/− monocytes with upregulation of genes involved in pMo development, survival, and function. Lyn deficiency also led to a significant increase in aorta-associated pMos and protected Ldlr −/− mice from high-fat diet–induced atherosclerosis. Conclusions: Together our data identify LYN as a key regulator of pMo development and a potential therapeutic target in inflammatory diseases regulated by pMos.
In humans, active renin is generated by the removal of a 43-amino acid prosegment from the zymogen prorenin. This cleavage event is highly specific, occurring at only one of the seven pairs of basic amino acids in the body of preprorenin. This cleavage site selectivity is also displayed by a number of other proteases in vitro and in mouse pituitary AtT-20 cells transfected with a human preprorenin expression vector, suggesting that specificity of cleavage is directed in part by the primary sequence, the higher order structure, or both of prorenin itself. To test this hypothesis, single amino acid mutations were introduced in the region of human preprorenin surrounding the natural cleavage site, and the resultant recombinant proteins were expressed in cultured Chinese hamster ovary and AtT-20 cells. The results suggest that amino acids in addition to the pair of basic amino acids surrounding the cleavage site affect the ability of both trypsin and the endogenous AtT-20 processing enzyme to cleave prorenin. Notably, although a proline at position -4 is essential for processing of prorenin in AtT-20 cells and is correlated with predicted formation of a p-turn at this position, site-directed mutations suggest that this structural feature in addition to a pair of basic amino acids is not sufficient to lead to proteolytic activation of prorenin. Displacement of sequences surrounding the cleavage site to a position 10 amino acids toward the amino terminus led to partial processing of a mutated prorenin. Taken together, these results suggest that the ability of AtT-20 cells to cleave prorenin is directed primarily by specific amino acid recognition on the amino side of the sclssile bond and that additional determinants (perhaps structural) enhance the efficiency of the maturation step. (Hypertension 1992;20:782-787) KEY WORDS • enzyme precursors • renin • renin-angiotensin system R enin is an aspartyl protease and is the limiting component in the circulating renin-angiotensin system, an important modulator of blood pressure in mammals.
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