Pancreatic polypeptide cells (PP cells), or formerly as gamma cells (γ-cells), or F cells, are cells in the pancreatic islets (Islets of Langerhans) of the pancreas. Their main role is to help synthesize and regulate the release of pancreatic polypeptide (PP), after which they have been named. The pancreatic islets, where PP cells reside, was discovered in 1869 by a German pathological anatomist and scientist, Paul Langerhans. PP cells help to make up the pancreas but are smallest in proportion to the other cells previously stated. The proportions can vary based on which animals are being studied, but in humans, PP cells make up less than 2% of the pancreatic islet cell population.
thumb|PP cell
Structure and role
The pancreas serves multiple roles within mammalian organisms. It plays a role in the digestive system and the endocrine system making it an organ and a very important gland. PP cells tend to located in the pancreatic islets, and are one of the rarer pancreatic cell types. They tend to be located in the duodenal part of the pancreas more medially.
Pancreatic polypeptide cells are most active and secrete more pancreatic polypeptide after a meal with high protein, fasting, physical activity, and acute hypoglycemia. These same cells are inhibited by somatostatin, an inhibitory gastrointestinal hormone, and the presence of glucose.
thumb|Pancreatic Polypeptide From a Mouse Cell
Through different microscopy techniques, the structural related details of PP cells have been able to be better understood. This is inclusive of how big they are, what their cellular membranes look like, the proteins associated with them, and even their size. PP cells are elongated cells. Another one of these details can be noted in insulins secretory granules, or container like buds, that store insulin within a cell. In PP cells, the size of the insulin granules are smaller and spherical and similar to those in alpha cells. This is noted in human PP cells, but different animals have been shown to have different sized granules compared to humans, like rodents. In cats and dogs, PP cells have large granules. In rats, PP cells have few granules, similar to humans. In dogs, some PP cells are located in the walls of the antrum of the stomach.