This distruption of the layer of bacteriocytes may be due to a st

This distruption of the layer of bacteriocytes may be due to a strong increase in the size of the gut due to a proliferation of the epithelial cells lining the gut lumen. The same island-like distribution of bacteriocytes has been observed previously in L2 larvae by in situ hybridization [4] and could also be seen after staining of actin fibres, which are part of the

muscle network surrounding the gut tissue. In these preparations stained clusters of bacteriocytes were visible directly underneath the muscle network enclosing GSK2126458 in vitro the midgut (Figure 3). Figure 2 Larva of stage L2. Overview (A) and detailed images of different optical sections (B – E) of the midgut of a C. floridanus larva (L2) by confocal laser scanning microscopy (for further information regarding Tipifarnib the composition of the figure see legend of Fig. 1). The bacteriocytes are located in cell clusters of different size on the outer surface of the midgut (B, C) and the cells lining the midgut lumen are free of bacteria (D, E). Green label: The Blochmannia

specific probe Bfl172-FITC; red label: SYTO Orange 83. The scale bars correspond to 220 μM (A) and 35 μM (B – E), PLX4032 mw respectively. Figure 3 Overview (A) and detailed image (B) of the actin-stained muscle network surrounding the midgut of a B. floridanus larva (L2) by confocal laser scanning microscopy. Green label: FITC-Phalloidin; red label: The Blochmannia specific probe Bfl172-Cy3. The scale bars correspond to 220 μM (A) and 35 μM (B), respectively. Bacteriocyte dynamics during metamorphosis In early pupal stage 1 prior to the shedding of the remnants of larval midgut tissue and meconium

formation, the distribution of bacteriocytes was still island-like as observed in L2 larvae (Figure 4). This is in accordance with recent results, showing that the number of bacteria Phosphoprotein phosphatase is relatively stable between these two developmental stages [15]. However, in the late P1 stage there was a massive increase in the number of bacteriocytes relative to epithelial cells resulting again in a nearly contiguous layer of these cells enclosing the epithelial cells lining the midgut lumen (Figure 5). In P1 pupae we also observed cells harboring bacteria that do not resemble typical bacteriocytes due to the larger size of their nuclei and the frequent presence of SYTO-stained vesicles (Figure 5D, E), possibly suggesting bacterial invasion in otherwise bacteria-free enterocytes (see below). The pupal stage 2 is characterized by the shedding of the remnants of larval gut tissue and excretion of the meconium and, consequently, by an alteration of the structure of the midgut (Figure 6). Astonishingly, at this stage virtually all cells were harboring bacteria. Symbionts appeared to be present mainly in bacteriocytes, but, once more, some enterocytes with large nuclei appeared to harbor Blochmannia (Figure 6E). Thus, in contrast to larval stages, virtually all cells of the layer lining the gut lumen contained bacteria.

Comments are closed.