Origin of Rh-blood group polymorphism

The Rh-blood group system in humans is also a typical case. Rh-positive people carry the immunodominant protein RhD with D-antigen (combination of molecular sections recognized by anti-RhD-antibodies) on their red blood cells. However, a substantial part of the European population is Rh-negative, i.e. both alleles of the relevant RHD-gene are nonfunctional or altered in Rh-negative people, so that this protein does not appear on their surfaces or the D-antigen (epitope) is missing on it. The function of the protein is not known; however, its structure suggests that it functions as a membrane transporter or rather co-transporter of ammonia or CO2 ions (Kustu & Inwood, 2006; Biver et al., 2006). With the exception of haemolytic diseases of Rh-positive babies born to Rh-negative mothers, until 2008, no effect of Rh-positivity or negativity on the health or any other properties of human beings has been described.  The results of three independent studies performed on blood donors, soldiers undergoing compulsory military service and university students indicated, however, that there are very substantial differences between Rh-positive and Rh-negative persons in the rate of reaction to simple stimuli and especially that their reaction rate changes following infection by the parasite Toxoplasma gondii (Novotná et al. 2008, Flegr et al. 2008). It was found that, amongst uninfected men, Rh-negative individuals react much faster than Rh-positive individuals. However, the ability to react rapidly to a stimulus decreases in Rh-positive men only minimally following infection by T. gondii, while this decrease is very substantial in Rh-negative men and their reaction times are finally much worse than those of Rh-positive men (Fig. VIII.8). Approximately 30% of the people in Europe are infected by T. gondii. A study performed on blood donors showed that, amongst infected persons, the performance of Rh-positive heterozygotes Rh +/– is best, that of Rh-negative Rh -/- homozygotes is worst (and worsens almost immediately after infection) and the performance of Rh-positive homozygotes Rh +/+ is only slightly better than that of Rh-negative homozygotes (but worsens more slowly). Thus, it is highly probable that the current occurrence of both alleles of the RHD-gene in the population is maintained in the long term by selection for heterozygotes. Selection for heterozygotes apparently played a great role particularly in the past when an individual’s reaction time could play an important role in the survival and reproduction success of an individual. Selection pressure for Rh-positive heterozygotes, however, apparently still plays a certain role in modern society. When 3900 military drivers were examined for toxoplasmosis and Rh phenotype on entering 1.5-year compulsory military service and the records of the military police were subsequently examined, it was found that Rh-negative persons infected by toxoplasmosis had more than twice the probability of being involved in a traffic accident than uninfected persons or Rh-positive persons. Amongst Rh-negative persons recently infected by toxoplasmosis (i.e. persons with high anti-toxoplasmosis antibody titres) the probability of an accident was as much as 5x higher than amongst other persons.

The high proportion of Rh-negative persons in the European population could be connected with the fact that, until recently, big cats (the definitive host of Toxoplasma gondii) were practically not present here and thus toxoplasmosis was rare (and Rh-negative persons were at an advantage compared to the rest of the population). The low percentage of Rh-negative persons in Africa (less than 1%) could be related to the high prevalence of toxoplasmosis there, which often approaches 100%.

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The classical Darwinian theory of evolution can explain the evolution of adaptive traits only in asexual organisms. The frozen plasticity theory is much more general: It can also explain the origin and evolution of adaptive traits in both asexual and sexual organisms Read more