Abstract

AimsSurfactant protein A (SP-A) plays critical roles in the innate immune system and surfactant homeostasis of the lung. Mutations in SP-A2 of the carbohydrate recognition domain (CRD) impair its glycosylation and are associated with pulmonary fibrosis in humans. We aim to examine how mutations in SP-A that impair its glycosylation affect its biological properties and lead to disease. Main methodsWe generated rat SP-A constructs with two types of mutations that impair its glycosylation: N-glycosylation site mutations (N21T, N207S and N21T/N207S) and disease-associated CRD mutations (G231V, F198S). We transfected these constructs into Chinese hamster ovary (CHO)-K1 cells and assessed biochemical differences in cellular and secreted wild-type and mutant SP-As by western blot, immunofluorescence, and sensitivity to enzymatic digestion. Key findingsMutations of the CRD completely impaired SP-A secretion, whereas mutations of N-glycosylation sites had little effect. Both types of mutations formed nonidet p-40 (NP-40) insoluble aggregates, but the aggregates only from CRD mutations could be partially rescued by a chemical chaperone, 4-phenylbutyrate acid (4-PBA). The majority of CRD mutant SP-A was retained in the endoplasmic reticulum. Moreover, both types of mutations reduced SP-A stability, with CRD mutant SP-A being more sensitive to chymotrypsin digestion. Both types of soluble mutant SP-A could be degraded by the proteasome pathway, while insoluble aggregates could be additionally degraded by the lysosomal pathway. SignificanceOur data provide evidence that the differential glycosylation of SP-A may play distinct roles in SP-A secretion, aggregation and degradation which may contribute to familial pulmonary fibrosis caused by SP-A2 mutations.

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