I’d like to introduce you to Placozoa:
Placozoa are a phylum of animals represented by a single member – Trichoplex. They are the simplest known animals, being composed of two sheets of ciliated cells. They have no mouth, head, gut, nervous system, or sense organs.
Placozoa can form a “temporary stomach” by arching over food as shown in the figure below:
The cells that form this “digestive cavity” secrete enzymes to dissolve the food particle and then absorb the biological molecules.
Here is a page that has more information, including this description:
Placozoans are extremely simple animals. Perhaps not coincidentally, they also have the smallest amount of DNA ever measured for any type of animal. Their bodies are made up of a few thousand cells of just four types. You can compare this to sponges, which have anywhere from 10 to 20 different kinds of cells, to flies, which have roughly 90 different cell types, and to you and other mammals, which have over 200 different types of cells. Placozoans are transparent, flat, round (up to 3 millimeters across), and have two distinct sides. A tissue layer composed of two types of cells, column-shaped cylinder cells with cilia and gland cells without cilia, make up the ventral (or bottom) surface. The upper dorsal surface consists of a layer of just cover cells, which are ciliated and flattened toward the outside of the animal. The image above shows the dorsal surface of a small specimen (just over 4/10ths of a millimeter in diameter) seen from above through a microscope. The dorsal and ventral tissues appear to correspond to ectoderm and endoderm, the outer and inner tissue layers of most animals, but it is not yet known which is endoderm and which is ectoderm. The fourth type of placozoan cells are called fiber cells. These cells are star-shaped and reside in the space between the two tissue layers. The star shape results from thin extensions of the cells which connect to each other in a network. Cellular material such as microtubules and microfilaments traverse the extensions from fiber cell to fiber cell. It is hypothesized that this system of connected cells in important in coordinating the movement of placozoans. Placozoans can move in two ways, by gliding on their cilia and by changing their shape like an amoeba.
It is interesting to note that Placozoans move about by combining two of the most common mechanisms of movement among protozoa. As for the four cell types mentioned above, they are shown in the following figure (cover cells, fiber cells, cylinder cells, and gland cells).
Surprisingly, despite its simplicity, very little is known about Placozoa. But what we have been discovering recently is very interesting……