Yohji Akagaki scite author profile

By the use of sucrose gelatin veronal buffer (SGVB), a simple screening test was developed by us to detect sera with low complement activity, including C9-deficient sera. Using this screening test, we were able to identify sera with low complement activity including C9-deficient sera among a large number of samples. Further examinations, estimation of the protein concentration of C9, C4, C3, etc., enabled classification of serum with low complement activity into C9-deficient serum, serum deficient in the other components, and serum with low complement activity caused by non-specific activation of complement through the classical pathway by low temperature in vitro. Among 145,640 sera from Osaka donors, 138 sera were found to be deficient in C9 by these methods. The whole complement activity (CH50) of the 138 sera was 13.1 +/- 3.0 U/ml. The C9 protein in these sera was undetectable, not only by the single radial immunodiffusion method, but also by the sensitive ELISA method. C9 activities in these sera were less than 0.1% of the level in pooled normal human serum. These findings and the family studies revealed that 138 blood donors unquestionably had a hereditary C9 deficiency. The incidence of C9 deficiency among Osaka donors was calculated to be 0.095%.

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Inherited Deficiencies of the Late-Acting Complement Components Other than C9 Found among Healthy Blood Donors

Inai

Akagaki

Moriyama

et al. 1989

Int Arch Allergy Immunol

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Among sera from 145,640 healthy blood donors in Osaka, 16 were found to have abnormalities in late-acting complement components other than C9. It was found that of these 16 sera, 2 were deficient in C5, 4 in C6, 6 in C7 and 4 in the C8 α-γ-subunit. The incidence of deficiency of each component among the Osaka blood donors was calculated as follows: C5 deficiency, 0.0014%; C6 deficiency, 0.0027%; C7 deficiency, 0.0041 %; C8 α-γ-subunit deficiency, 0.0027%. We confirmed that 13 donors were healthy and 12 had no past history related to a complement component deficiency. From these results, not only C9 deficiency but also deficiencies of the other late-acting complement components were found among the healthy blood donors, but no early-acting component deficiencies were noted.

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High-Incidence of C9 Deficiency throughout Japan: There Are No Significant Differences in Incidence among Eight Areas of Japan

Hayama¹,

Sugai

Tanaka

et al. 1989

Int Arch Allergy Immunol

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From 92,686 sera sent from hospitals throughout Japan to the Special Reference Laboratories, for CH50 assay, we were able to classify 80 patients as C9-deficient using a sensitive screening test, as well as hemolytic and immunochemical C9 assays. The incidence of C9 deficiency was determined to be 0.086%, and there were no distinct differences among the eight areas of Japan tested. Serum CH50 levels of these C9-deficient patients varied widely (9.4–63.8 U/ml), and exhibited a higher value (average: 34.1 U/ml) than that of healthy C9-deficient individuals, probably due to elevated C3, C4, and C5 levels. These patients suffered from a variety of autoimmune, renal, and infectious diseases, which, however, are thought to be only incidentally associated with C9 deficiency.

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Paroxysmal nocturnal haemoglobinuria with coexisting deficiency of the ninth component of complement: lack of massive haemolytic attack

et al. 1990

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A 47-year-old woman with paroxysmal nocturnal haemoglobinuria (PNH) was found to have an inherited deficiency in the ninth complement component (C9). In complement-sensitivity lysis tests, 80% of her erythrocytes were markedly complement-sensitive (PNH-III). Laser cytofluorimetry with a monoclonal antibody against decay-accelerating factor (DAF) revealed that 95% of her erythrocytes were DAF-negative. Surprisingly, she has suffered only mild haemolysis and has never experienced massive spontaneous haemolysis. Gross haemoglobinuria and jaundice occurred only after receiving postoperative transfusion of whole blood. In her serum, C9 was not detectable either by immunological or by functional assays. Both the Ham test and the sugar water test using normal human serum or plasma yielded marked haemolysis of the patient's erythrocytes. When the patient's serum or plasma was used, only a trace of lysis was detected. Addition of purified human C9 to her plasma fully restored haemolysis. These observations indicated that C9 may play a critical role in haemolytic attacks in patients with PNH and that characteristic haemolysis in PNH may be tempered by coexisting C9 deficiency.

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Activation of the alternative complement pathway by the immune precipitate formed with F(ab')2 fragment of human IgG antibody

Akagaki

Inai

1983

Molecular Immunology

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Yohji Akagaki

A high incidence of C9 deficiency among healthy blood donors in Osaka, Japan

Inherited Deficiencies of the Late-Acting Complement Components Other than C9 Found among Healthy Blood Donors

High-Incidence of C9 Deficiency throughout Japan: There Are No Significant Differences in Incidence among Eight Areas of Japan

Paroxysmal nocturnal haemoglobinuria with coexisting deficiency of the ninth component of complement: lack of massive haemolytic attack

Activation of the alternative complement pathway by the immune precipitate formed with F(ab')2 fragment of human IgG antibody

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