Abstract
Using a system optimized for propagating human keratinocytes, culture of skin samples from white and green sturgeons generated epithelial cells capable of making cross-linked protein envelopes. Two distinct forms of TGM1-like mRNA were molecularly cloned from the cells of white sturgeon and detected in green sturgeon cells, accounting for their cellular envelope forming ability. The protein translated from each displayed a cluster of cysteine residues resembling the membrane anchorage region expressed in epidermal cells of teleosts and tetrapods. One of the two mRNA forms (called A) was present at considerably higher levels than the other (called B) in both species. Continuous lines of white sturgeon epidermal cells were established and characterized. Size measurements indicated that a substantial fraction of the cells became enlarged, appearing similar to squames in human epidermal keratinocyte cultures. The cultures also expressed CYP1A, a cytochrome P450 enzyme inducible by activation of aryl hydrocarbon receptor 2 in fish. The cells gradually improved in growth rate over a dozen passages while retaining envelope forming ability, TGM1 expression and CYP1A inducibility. These cell lines are thus potential models for studying evolution of fish epidermis leading to terrestrial adaptation and for testing sturgeon sensitivity to environmental stresses such as pollution.
Highlights
Aquatic organisms are in decline worldwide, and many desirable species, those in estuaries impacted by human civilization, are threatened or endangered
The yield increased with the number of trypsinizations (45 min each), and culturing the remaining tissue after the third round recovered numerous colonies as well
The colonies appeared to result from attachment of small clumps of cells (Fig 1B)
Summary
Aquatic organisms are in decline worldwide, and many desirable species, those in estuaries impacted by human civilization, are threatened or endangered. This phenomenon is attributable to loss of habitat and its degradation by pollution. To permit remediating and restoring the remaining habitat, a great need exists to identify pollutants of most concern to support regulatory action. These constitute a minimal data set to reach the conclusions drawn in the manuscript
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