Pigment granule architecture varies across yellow, red, and brown chromatophores in squid Doryteuthis pealeii.

Cephalopods produce dynamic colors and skin patterns for communication and camouflage via stratified networks of neuronally actuated yellow, red, and brown chromatophore organs, each filled with thousands of pigment granules. While compositional analysis of chromatophore granules in Doryteuthis pealeii reveals the pigments as ommochromes, the ultrastructural features of the granules and their effects on bulk coloration have not been explored. To investigate this, we isolated granules from specific colored chromatophores and imaged them using multiple modalities.

Advanced basal cell carcinoma: What dermatologists need to know about treatment.

The treatment of advanced basal cell carcinoma (BCC) often requires therapies beyond local surgical excision or radiation due to the invasiveness of the tumor. Historically, cytotoxic chemotherapy was used to treat advanced BCC, but with limited data, no standard regimens were established. The discovery of cyclopamine, a natural inhibitor in the Hedgehog pathway, led to the development of the 2 currently approved Hedgehog inhibitors, vismodegib and sonidegib.

Networks of linked radial muscles could influence dynamic skin patterning of squid chromatophores.

The visibility of cephalopod chromatophore organs is regulated dynamically by rosettes of obliquely striated radial muscles that dilate or relax the diameter of a central pigmented sacculus in 100-300 ms. Each of the several dozen muscles has a flared proximal end that adheres tightly to its pigmented sacculus and an extremely elongated distal end which branches into single fibrils that anchor into the dermis. This geometry provides ample opportunity for overlap of the many muscles from neighboring chromatophores.