DNA replication in binucleate cells of the Malpighian tubules of Hemipteran insects

Abstract

The cells of Malpighian tubules of the Hemipteran blood-sucking insect, Rhodnius prolixus, are binucleate. The cells grow without division and, at each larval moult, the DNA content of the nuclei doubles. At the final moult to the adult, however, the DNA content does not change, even though the tubules grow considerably thereafter. In contrast, the DNA content of the tubule nuclei of two other Heteropteran Hemipteran insects, Dysdercus and Oncopeltus, doubles at every moult, including the final one to the adult. If extra larval moults are induced in Rhodnius, by treatment with juvenile hormone, DNA doubling is induced at each such supernumerary larval moult. Shortly after the DNA content increases in Rhodnius tubules, the chromosomes can be seen in a condensed state; presumably, therefore, DNA replication is achieved by endomitosis. Both before this DNA doubling, and within a day after, multiple nucleoli are prominent and appear actively engaged in producing ribosomal precursors. In fed fourth stage Rhodnius, the DNA content of the tubule cell nuclei increases 5–6 days after the blood meal. Neither the rate of fluid secretion that can be induced by stimulation nor the rate of transport of p-aminohippuric acid show any change at the time of DNA replication nor in the remaining days before ecdysis to the fifth stage. Malpighian tubule cell growth without division is thus well adapted to providing, without interruption, for the excretory needs of the growing insect.