Cellulose digestion in termites and cockroaches: What role do symbionts play?

Abstract

Abstract 1. 1. Termites and cockroaches are excellent models for studying the role of symbionts in cellulose digestion in insects: they eat cellulose in a variety of forms and may or may not have symbionts. 2. 2. The wood-eating cockroach, Panesthia cribrata, can be maintained indefinitely, free of microorganisms, on a diet of crystalline cellulose. Under these conditions the RQ is 1, indicating that the cockroach is surviving on glucose produced by endogenous cellulase. 3. 3. The in vitro rate at which glucose is produced from crystalline cellulose by gut extracts from P. cribrata and Nasutitermes walkeri is comparable to the in vivo production of CO2 in these insects, clearly indicating that the rate of glucose production from crystalline cellulose is sufficient for their needs. 4. 4. In all termites and cockroaches examined, cellulase activity was found in the salivary glands and predominantly in the foregut and midgut. These regions are the normal sites of secretion of digestive enzymes and are either devoid of microorganisms (salivary glands) or have very low numbers. 5. 5. Endogeneous cellulases from termites and cockroaches consist of multiple endo-β-1,4-glucanase (EC 3.2.1.4) and β-1,4-glucosidase (EC 3.2.1.21) components. There is no evidence that an exo-β-1,4-glucanase (cellobiohydrolase) (EC 3.2.1.91) is involved in, or needed for, the production of glucose from crystalline cellulose in termites or cockroaches as the endo-β-1,4-glucanase components are active against both crystalline cellulose and carboxymethylcellulose. 6. 6. There is no evidence that bacteria are involved in cellulose digestion in termites and cockroaches. The cellulase associated with the fungus garden of M. michaelseni is distinct from that in the midgut; there is little indication that the fungal enzymes are acquired or needed. Lower termites such as Coptotermes lacteus have Protozoa in their hindgut which produce a cellulase(s) quite distinct from that in the foregut and midgut.