scholarly journals Control of the acute phase response. Demonstration of C-reactive protein synthesis and secretion by hepatocytes during acute inflammation in the rabbit.

1978 ◽  
Vol 148 (2) ◽  
pp. 466-477 ◽  
Author(s):  
I Kushner ◽  
G Feldmann
Keyword(s):  
Endoplasmic Reticulum ◽  
Acute Phase ◽  
Acute Phase Response ◽  
Smooth Endoplasmic Reticulum ◽  
Phase Response ◽  
Cell Of Origin ◽  
C Reactive Protein ◽  
Electron Microscopic ◽  
Reactive Protein ◽  
Microscopic Studies

To determine the cell of origin of C-reactive protein (CRP) and to cast light on the mechanisms leading to the acute phase response, we used an immunoenzymatic technique to visualize this protein in livers from rabbits at intervals after intramuscular injection of turpentine. CRP was detected only in hepatocytes. 8 h after turpentine injection, CRP was demonstrated in occasional periportal hepatocytes. With time, larger numbers of positive cells were detected successively in perilobular, midlobular, and centrilobular areas. On electron microscopy, CRP was detected in rough endoplasmic reticulum (RER), smooth endoplasmic reticulum (SER), and Golgi apparatus (GA). When colchicine was administered to inhibit cellular secretion of CRP, intensity of reaction and number of CRP-containing hepatocytes were substantially greater than without colchicine, but the sequence of intralobular distribution was similar. At peak serum response 38 h after turpentine injection, CRP could be demonstrated in most hepatocytes. Electron microscopic studies showed accumulation of CRP on membranes and lumina of RER, SER, GA, and in cytoplasmic vacuoles. These findings indicate that CRP is produced by progressively increasing numbers of hepatocytes after inflammatory stimulus and suggest that a mediator, acting initially in portal zones, is responsible for recruitment of cells to CRP production.

Acute phase response after myocardial infarction: Correlation between serum levels of cytokines and C-reactive protein

1990 ◽  
Vol 68 (21) ◽  
pp. 1083-1083 ◽  
Author(s):  
H. Tilg ◽  
J. Mair ◽  
M. Herold ◽  
W. E. Aulitzky ◽  
P. Lechleitner ◽  
...  
Keyword(s):  
Myocardial Infarction ◽  
Acute Phase ◽  
Acute Phase Response ◽  
Serum Levels ◽  
Phase Response ◽  
C Reactive Protein ◽  
Reactive Protein

The acute phase response and C-reactive protein

2020 ◽  
pp. 2199-2207
Author(s):  
Mark B. Pepys
Keyword(s):  
Acute Phase ◽  
Acute Phase Response ◽  
Serum Amyloid A ◽  
Acute Phase Proteins ◽  
Phase Response ◽  
Serum Amyloid ◽  
C Reactive Protein ◽  
Reactive Protein ◽  
Amyloid A ◽  
Serum Amyloid A Protein

The acute phase response—trauma, tissue necrosis, infection, inflammation, and malignant neoplasia induce a complex series of nonspecific systemic, physiological, and metabolic responses including fever, leucocytosis, catabolism of muscle proteins, greatly increased de novo synthesis and secretion of a number of ‘acute phase’ plasma proteins, and decreased synthesis of albumin, transthyretin, and high- and low-density lipoproteins. The altered plasma protein concentration profile is called the acute phase response. Acute phase proteins—these are mostly synthesized by hepatocytes, in which transcription is controlled by cytokines including interleukin 1, interleukin 6, and tumour necrosis factor. The circulating concentrations of complement proteins and clotting factors increase by up to 50 to 100%; some of the proteinase inhibitors and α‎1-acid glycoprotein can increase three- to fivefold; but C-reactive protein (CRP) and serum amyloid A protein (an apolipoprotein of high-density lipoprotein particles) are unique in that their concentrations can change by more than 1000-fold. C-reactive protein—this consists of five identical, nonglycosylated, noncovalently associated polypeptide subunits. It binds to autologous and extrinsic materials which contain phosphocholine, including bacteria and their products. Ligand-bound CRP activates the classical complement pathway and triggers the inflammatory and opsonizing activities of the complement system, thereby contributing to innate host resistance to pneumococci and probably to recognition and safe ‘scavenging’ of cellular debris. Clinical features—(1) determination of CRP in serum or plasma is the most useful marker of the acute phase response in most inflammatory and tissue damaging conditions. (2) Acute phase proteins may be harmful in some circumstances. Sustained increased production of serum amyloid A protein can lead to the deposition of AA-type, reactive systemic amyloid.

scholarly journals Studies of translatable mRNA for rabbit C-reactive protein

1985 ◽  
Vol 227 (3) ◽  
pp. 759-765 ◽  
Author(s):  
D Samols ◽  
S S MacIntyre ◽  
I Kushner
Keyword(s):  
Acute Phase ◽  
Acute Phase Response ◽  
Phase Response ◽  
Translation Product ◽  
C Reactive Protein ◽  
Reactive Protein ◽  
Primary Translation Product ◽  
Free Translation ◽  
Translatable Mrna

C-reactive protein (CRP) mRNA was assayed by cell-free translation of poly(A)-containing liver RNA isolated both from rabbits stimulated to undergo the acute-phase response and from unstimulated control rabbits. No CRP-related translation products were identified until the denaturant methylmercury hydroxide (CH3HgOH) was added to the RNA before cell-free translation. In the presence of the denaturant, a 24000-Da translation product was synthesized which was immunochemically identifiable as the CRP primary translation product. It is likely that rabbit CRP mRNA can form a stable intramolecular duplex which interferes with its translatability in vitro. The 24000-Da CH3HgOH-facilitated cell-free translation product was not detected in poly(A)-containing liver RNA from unstimulated animals, indicating that the concentration of translatable CRP mRNA was dramatically induced during the acute-phase response. On the basis of absorption experiments, the 24000-Da CRP primary translation product was immunochemically more closely related to denatured CRP than to native CRP.

Strenuous exercise: analogous to the acute-phase response?

1991 ◽  
Vol 81 (5) ◽  
pp. 677-683 ◽  
Author(s):  
Lindsay M. Weight ◽  
Donald Alexander ◽  
Peter Jacobs
Keyword(s):  
Acute Phase ◽  
Total Protein ◽  
Protein Level ◽  
Acute Phase Response ◽  
Interleukin 1 ◽  
Phase Response ◽  
Strenuous Exercise ◽  
Iron Level ◽  
C Reactive Protein ◽  
Reactive Protein

1. It has been suggested that the physiological consequences of strenuous exercise are analogous to those of the acute-phase response. 2. In 70 male and 20 female competitive distance runners, a marked, but transient, neutrophil leucocytosis occurred immediately after these athletes completed a standard (42 km) marathon race. Concomitant significant increases were noted in the plasma cortisol levels, creatine kinase activity, C-reactive protein level, total protein level and albumin level (P <0.01). 3. The plasma fibrinogen, C-reactive protein and total protein concentrations were markedly increased both 24 h and 48 h after exercise (P <0.01). The serum haptoglobin level was significantly decreased after exercise (P <0.01), and increased 48 h later (P <0.05). There was no change in the serum iron level, total iron-binding capacity, per cent saturation of transferrin and serum ferritin level. 4. A significant increase in interleukin-1-type activity was demonstrated immediately and 24 h after exercise (P <0.01). 5. It is concluded that the metabolic sequelae of sustained exercise are similar, but not analogous, to the acute-phase response, and interleukin-1 probably plays a significant role in linking the haematological and immunological changes observed after sustained strenuous exercise.

scholarly journals Acute Phase Response in Patients With Uncomplicated and Complicated Endoscopic Retrogradic Cholangiopancreaticography

HPB Surgery ◽  
1994 ◽  
Vol 8 (2) ◽  
pp. 129-131 ◽  
Author(s):  
Heikki Kiviniemi ◽  
Tatu Juvonen ◽  
Jyrki Mäkelä
Keyword(s):  
Prospective Study ◽  
Acute Phase ◽  
Acute Phase Response ◽  
Response Curve ◽  
Serum Amylase ◽  
Phase Response ◽  
C Reactive Protein ◽  
Protein Levels ◽  
Reactive Protein ◽  
Biliary Diseases

Acute phase response after endoscopic retrogradic cholangiopancreaticography (ERCP) was studied in 42 patients with suspected pancreatic or biliary diseases. In uncomplicated cases acute phase response determined by serum C-reactive protein levels was rare and did not parallel the serum amylase or lipase levels. In three of the these 42 patients, post-ERCP pancreatitis developed and CRP levels elevated sharply and paralleled the degree of pancreatitis. Six additional patients outside of this prospective study with post-ERCP-pancreatitis and daily CRP determinations were used to determine the CRP-response curve in post-ERCP pancreatitis.

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