Equine alternative pathway activation by unsensitized rabbit red blood cells.
Abstract: The equine alternative complement pathway has been partially characterized and compared to the equine classical activation pathway. A dose-dependent lysis of RbRBC was observed with peak lytic values noted within 10 minutes at 37 degrees C when rabbit red blood cells (RbRBC) were used as an alternative pathway activator. Sheep red blood cells (SRBC) sensitized with rabbit hemolysin or partially purified equine IgM antibodies were equally sensitive to lysis. Dilution of the commercial hemolysin by 1/5 reduced lysis from 90% to 38% in the presence of constant cell numbers. Hemolysis of SRBC peaked at 10 minutes and the majority of lysis occurred within 10 minutes. Dilution of equine sera by as little as 1/5 decreased hemolytic activity for SRBC to 21.5% from greater than 90% with undiluted sera. The alternative pathway protein, equine factor B, was tested using RbRBC and monitored by its differential susceptibility to heat treatment at 50 degrees C. This treatment led to almost complete inactivation after a 15-minute incubation. An apparent heat-dependent decay of certain classical pathway components was also observed after 50 degrees C treatment. This sensitivity was indicated by a reduction in the lytic activity for sensitized SRBC. Treatment for 15 minutes at 56 degrees C with either RbRBC or SRBC was sufficient to abolish hemolytic activity in all equine sera tested. Chelation of cations with 0.04 M EDTA blocked expression of alternative and classical pathway activation; however, chelation of Ca++ ions with 10 mM EGTA containing 1 mM Mg++ ions permitted lysis of the RbRBC but not the SRBC. A dose-related Mg++-ion dependence for RbRBC hemolytic activity was observed as the concentration of Mg++ was increased to 1.0 mM. In addition, our results obtained with pre-colostral foal serum strongly suggest that natural antibody to RbRBC was of little importance in the lysis observed with these cells. These results also show that the equine alternative pathway activation may require Ca++ ions. If Ca++ ions are required, the equine alternative pathway is quite different from any other mammalian complement system so far described. Our results suggest that the alternative pathway of activation is of major importance in the equine complement system. Confirmation of this hypothesis requires both purification of the components involved as well as further characterization.
Publication Date: 1985-05-01 PubMed ID: 4024451DOI: 10.1016/0165-2427(85)90131-xGoogle Scholar: Lookup
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- Comparative Study
- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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This research article investigates the role and characteristics of the equine alternative complement pathway, specifically how it is activated via unsensitized rabbit red blood cells (RbRBC), and the potential impacts for the equine immune system. It also considers the detection sensitivity of the equine complement system to different pathway activation methods and factors.
Study Overview
- The research studied the equine alternative complement pathway, a part of the immune system in horses.
- The study compared this equine alternative pathway to the more traditionally known classical pathway.
- The researchers utilized rabbit red blood cells (RbRBC) and sheep red blood cells (SRBC) as pathway activators for the study. This means they were used to trigger or stimulate the equine alternative pathway.
Key Findings
- A dose-dependent lysis of RbRBC was noticed. This means that the breakdown or destruction of rabbit red blood cells increased with increasing ‘dose’ or concentration.
- SRBC sensitized with rabbit hemolysin or partial equine IgM antibodies were sensitive to lysis to the same degree, exhibiting the response of the equine immune system to these cells.
- Dilution of the commercial hemolysin or equine sera led to a decrease in RbRBC lysis, indicating that their concentration is critical for the complement pathway’s efficiency.
- Heat treatment, particularly at 50 degrees Celsius, resulted in almost complete inactivation of the equine factor B protein within a timeframe of 15 minutes.
Alternative Pathway Activation
- The research found that removing cations with 0.04 M EDTA blocked the activation of both the alternative and classical pathways, indicating their importance in this process.
- However, the removal of Ca++ ions allowed the lysis of RbRBC but not SRBC, suggesting a differential effect based on the cell type used.
- These results hint that Ca++ ions may be necessary for the equine alternative pathway activation – a marked difference from other known mammalian complement systems.
Concluding Remarks
- The researchers conclude that the alternative pathway of activation appears to be a significant component in the equine complement system.
- However, they indicate that further research, including purification of components and further characterization, is needed to confirm this conclusion.
Cite This Article
APA
Leid RW, Coley SC, Blanchard DP, Perryman LE.
(1985).
Equine alternative pathway activation by unsensitized rabbit red blood cells.
Vet Immunol Immunopathol, 9(1), 71-85.
https://doi.org/10.1016/0165-2427(85)90131-x Publication
Researcher Affiliations
MeSH Terms
- Animals
- Complement Activation / drug effects
- Complement Pathway, Alternative / drug effects
- Complement Pathway, Classical
- Erythrocytes / immunology
- Hemolysin Proteins / immunology
- Hemolysis
- Horses / immunology
- Humans
- In Vitro Techniques
- Kinetics
- Magnesium / pharmacology
- Rabbits
- Sheep
Citations
This article has been cited 2 times.- Picetti TS, Soveral LF, Miotto R, Erpen LMS, Kreutz Y, Guizzo JA, Frandoloso R, Kreutz LC. Orally administered β-glucan improves the hemolytic activity of the complement system in horses. Vet World 2021 Apr;14(4):835-840.
- Perryman LE, O'Rourke KI, McGuire TC. Immune responses are required to terminate viremia in equine infectious anemia lentivirus infection. J Virol 1988 Aug;62(8):3073-6.
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