Changes in chromosomes and in development of cells of Sciara ocellaris induced by microsporidian infections

Two species of microsporidia distinguished by the shape of their spores were found to infect cells of various tissues of Sciara ocellaris. Although the infection affects profoundly the development of the infected cells, the interaction between the infective agents and the host cells are often well-balanced and the infected cells may survive longer than the uninfected of the same tissue. The infected cells, including their nuclei and chromosomes, increase greatly. The general reaction of the chromosomes of cells of S. ocellaris infected by microsporidia is the increase of their volume by an increase in the polyteny and the accumulation of chromosomal products between their chromonemata. The cells of the fat bodies, on the other hand, have peculiar types of reactions. Some show an increase in polyteny, frequently showing asynapsis of the entire or parts of the chromosome. Other cells show increased chromosome polyteny associated with different degrees of polyploidy. Still other infected cells develop a new type of chromosome morphology called brachy-polytene which may or may not be associated with polyploidy. Special emphasis must be given to the fact that in Diptera, which have polytene chromosomes, the relationships of the infection and the host cell may in many cases be studied thoroughly, starting with the reaction of the genes to the infective agent. It was shown that in the infected cells of the salivary gland of S. ocellaris the pattern of puffs is greatly changed; hence, this change may be the probable cause of their change in development. Infected cells of the salivary gland with enlarged and active polytene chromosomes were found in adult flies, a situation which never occurs in non-infected animals. Since the microsporidia when entering the cells of S. ocellaris do not cause degeneration of the infected cells but determine a new pattern of development, their association with host cells offers great possibilities in the study of basic problems in cell biology, mainly related to chromosomal morphology, physiology and differentiation.This paper is dedicated to our dear friend Professor Sally Hughes-Schrader for her outstanding contribution to Biology.Work supported by Grants of the Public Health Service (GM 15769), Oonselho Nacional de Pesquisas and Pundação de Amparo á Pesquisa do Estado de São Paulo Brazil.