The occurrence of inflammatory granulomas in the ctenidial marsupium of Corbicula fluminea (mollusca: Bivalvia): A consequence of larval incubation

Abstract

A number of tumor-like cysts in the ctenidia of the freshwater bivalve Corbicula fluminea are described. The cysts result from the encapsulation of incubated larvae within the female inner demibranchs which are modified to form a marsupium. Corbicula fluminea is a protandric consecutive hermaphrodite, and larval incubation commences with sex reversal and the release of the first eggs. For some reason a few of the larvae are not released, and their retention and subsequent death results in the mobilization of the innate cellular defensive mechanism of the parent. This process involves, initially, an invasion of epithelioid cells and amoebocytes (granulocytes), resulting in hyperplasia. This is followed by structural changes to the epithelium bordering the interlamellar spaces (within which the larvae are incubated) to form ultimately the cyst wall. The epithelium is surrounded externally by layers of fibrocytes which eventually form a thick capsule. The autolyzed larval tissues are themselves invaded by fibrocytes, epithelioid cells, and amoebocytes and, in one specimen, had formed a three-layered capsule within the surrounding capsule. The amoebocytes probably reabsorb the larval cellular debris. This unusual example of a molluscan cellular defensive mechanism may assist in the diagnosis and separation of hyperplastic injury responses from neoplasmic conditions in invertebrates.