Pinealocytes are the main cells contained in the pineal gland, located behind the third ventricle and between the two hemispheres of the brain. The primary function of the pinealocytes is the secretion of the hormone melatonin, important in the regulation of circadian rhythms. In humans, the suprachiasmatic nucleus of the hypothalamus communicates the message of darkness to the pinealocytes, and as a result, controls the day and night cycle. It has been suggested that pinealocytes are derived from photoreceptor cells. Research has also shown the decline in the number of pinealocytes by way of apoptosis as the age of the organism increases. There are two different types of pinealocytes, type I and type II, which have been classified based on certain properties including shape, presence or absence of infolding of the nuclear envelope, and composition of the cytoplasm.
Types of pinealocytes
Type 1 pinealocytes
Type 1 pinealocytes are also known as light pinealocytes because they stain at a low density when viewed under a light microscope and appear lighter to the human eye. These Type 1 cells have been identified through research to have a round or oval shape and a diameter ranging from 7–11 micrometers. Type 1 pinealocytes are typically more numerous in both children and adults than Type 2 pinealocytes. Another finding consistent with Type 1 pinealocytes is the increase in the amount of lysosomes and dense granules present in the cells as the age of the organism increases, possibly indicating the importance of autophagocytosis in these cells.
Type 2 pinealocytes
Type 2 pinealocytes are also known as dark pinealocytes because they stain at a high density when viewed under a light microscope and appear darker to the human eye. As indicated by research and microscopy, they are round, oval, or elongated cells with a diameter of about 7–11.2 micrometers. In lower vertebrates, synaptic ribbons serve as a photoreceptive organ, but in upper vertebrates, they serve secretory functions within the cell. The presence of proteins such as Munc13-1 indicates that they are important in neurotransmitter release. Structural, functional, and genetic similarities exist between the two cell types. Structurally, both develop from the area of the brain designated the diencephalon, also the area containing the thalamus and hypothalamus, during embryological development.