Role of CR1 Knops polymorphism in the pathophysiology of malaria: Indian scenario.

نویسندگان

  • Monika Gandhi
  • Arpita Singh
  • Vas Dev
  • T Adak
  • A P Dashd
  • Hema Joshi
چکیده

BACKGROUND & OBJECTIVES Plasmodium falciparum is the leading cause of mortality and causes cerebral malaria associated with sequestration caused by cytoadherence of the trophozoite and schizont-infected erythrocytes to the endothelial cells of the deep vascular beds in the brain. Pathophysiology of malaria is complicated by rosetting. Rosetting is a process of binding of uninfected erythrocytes to the erythrocytes infected with mature asexual parasites and is controlled by expression of complement receptor 1 (CR1) on RBC surface. Various polymorphic forms of CR1 are known including molecular weight polymorphism, red blood cell expression levels/density polymorphism and Knops (KN) polymorphism. The Knops blood group includes several allelic pairs; Knops a and b (Kna and Knb), McCoy a and b (McCa, McCb), Swain-Langley (Sla), and Villien (Vil). Knops phenotype Sl (a-) has been found to rosette less effectively than Sl (a+) and hence suggested to be more protective. P. falciparum cases have not reduced much as compared to the reduction in the total number of malaria cases in the past few years. In addition, P. falciparum is the leading cause for all mortality and most of the morbidity in India. We, therefore, investigated the role of CR1 Knops polymorphism in the pathophysiology of malaria in Indian population. METHODS A case control approach was used for this study. CAPS (Cleaved amplified polymorphic sequence) methodology was adopted. A total of 100 normal individuals (free from any ailment) and 100 individuals suffering from P. falciparum infection (uncomplicated malaria) were recruited for this study. RESULTS We found that in Indian population (normal individuals and P. falciparum-infected individuals), only the wild type allele is present. INTERPRETATION & CONCLUSION We concluded that the process of rosetting in the Indian context could be occurring independently of the effect of Knops polymorphism and in part could be controlled by other polymorphisms of the CR1 gene (density and structural polymorphism).

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Complement receptor 1 (CR1) has been implicated in rosetting of uninfected red blood cells to Plasmodium falciparum– infected cells, and rosette formation is associated with severe malaria. The Knops blood group (KN) is located on CR1 and some of these antigens, ie, McCoy (McC) and Swain-Langley (Sla), show marked frequency differences between Caucasians and Africans. Thus, defining the molecul...

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Molecular identification of Knops blood group polymorphisms found in long homologous region D of complement receptor 1.

Complement receptor 1 (CR1) has been implicated in rosetting of uninfected red blood cells to Plasmodium falciparum-infected cells, and rosette formation is associated with severe malaria. The Knops blood group (KN) is located on CR1 and some of these antigens, ie, McCoy (McC) and Swain-Langley (Sl(a)), show marked frequency differences between Caucasians and Africans. Thus, defining the molecu...

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عنوان ژورنال:
  • Journal of vector borne diseases

دوره 46 4  شماره 

صفحات  -

تاریخ انتشار 2009