Histological and ultrastructural features of Aplysina cauliformis affected by Aplysina red band syndrome

Histological and ultrastructural features of Aplysina cauliformis affected by Aplysina red band syndrome

Aplysina red band syndrome (ARBS) affects shallow–water branching Caribbean sponges of the genus Aplysina. Signs of ARBS consist of a red band that advances from an initial circular lesion in both directions along the branch of the sponge, leaving behind spongin fibers devoid of living tissue. The r...

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Bibliographic Details
Published in:Invertebrate biology Vol. 138; no. 2
Main Authors: Gochfeld, Deborah J., Diaz, Maria Cristina, Renegar, D. Abigail, Olson, Julie B.
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc 01-06-2019
Subjects:
Aetiology
Aplysina
Aplysina cauliformis
Aplysina red band syndrome
Bacteria
Cells
Coloration
Colour
Cyanobacteria
Disintegration
Electron microscopy
Etiology
Fibers
Filaments
Histology
Leptolyngbya
Lesions
Pathological effects
pathology
Pseudopodia
sponge disease
Sponges
Symbionts
Tissue
Tissues
Transmission electron microscopy
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Summary:Aplysina red band syndrome (ARBS) affects shallow–water branching Caribbean sponges of the genus Aplysina. Signs of ARBS consist of a red band that advances from an initial circular lesion in both directions along the branch of the sponge, leaving behind spongin fibers devoid of living tissue. The red band is dominated by the filamentous cyanobacterium Leptolyngbya sp., which is responsible for the red coloration, although its role in the etiology of ARBS remains elusive. We used a combination of histology and transmission electron microscopy to describe ultrastructural and cellular differences between healthy and diseased individuals of Aplysina cauliformis. Tissue from the red band adjacent to spongin fibers devoid of living tissue was compared to healthy‐appearing tissue on the same sponges and to healthy sponges. ARBS‐affected tissue exhibited changes in cell densities, with increases in archaeocytes, collencytes, and unidentified round eukaryotic cells; decreases in exopinacocytes, granular cells, and spherulous cells; and loss of intact choanocyte chambers. Archaeocytes associated with diseased tissue appeared to be more active, as indicated by increased numbers and lengths of pseudopodia, and by a higher density of engulfed bacteria and symbiotic cyanobacteria, some of which were in various stages of disintegration. Filaments of Leptolyngbya sp. tended to be associated only with the ectosome of the red band portion of the lesion itself, and were rarely observed infiltrating intact tissue. These descriptions of anatomical and cellular responses to ARBS in A. cauliformis add to our understanding of the pathological effects of this widespread disease.
ISSN:1077-8306
1744-7410
DOI:10.1111/ivb.12247