Jeffrey W. Moehlenbruck scite author profile

Jeffrey W. Moehlenbruck

2Publications

77Citation Statements Received

52Citation Statements Given

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The University of Texas at Austin

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Effect of temperature on long‐term survival of anucleate giant axons in crayfish and goldfish

Blundon

Sheller

Moehlenbruck

et al. 1990

J of Comparative Neurology

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The effect of temperature on the electrophysiology and morphology of anucleate axons was examined following severance of crayfish medial giant axons and goldfish Mauthner axons from their respective cell bodies. Although anucleate segments of each giant axon exhibited long-term survival for weeks to months at 5-25 degrees C in crayfish and 10-30 degrees C in goldfish, the two axons differed in their survival characteristics. All measures of long-term survival in crayfish medial giant axons were independent of animal holding temperature, whereas all measures in Mauthner axons were dependent on holding temperature. Medial giant axons survived for at least 90 days in crayfish maintained at 5-25 degrees C in this and previous studies. Mauthner axons survived for over 5 months in goldfish maintained at 10 degrees C but survived for 1 month at 30 degrees C. Postoperative time had different effects on many single measures of long-term survival (axonal diameter, amplitude of action or resting potentials) in medial giant axons compared to Mauthner axons. For example, resting and action potentials in crayfish medial giant axons remained remarkably constant at all holding temperatures for 0-90 postoperative days. In contrast, resting and action potentials in goldfish Mauthner axons declined abruptly in the first 10-20 postoperative days followed by a slower decline at each holding temperature. We suggest that the mechanism of long-term survival is not necessarily the same in all anucleate axons.

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Long‐term survival followed by degradation of neurofilament proteins in severed Mauthner axons of goldfish

1994

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The morphology and protein composition of intact and severed Mauthner axons (M-axons) from goldfish were examined on electron micrographs, sodium dodecyl sulfate gels, and immunoblots. Neurofilaments were the most common cytoskeletal element on electron micrographs, and neurofilament proteins (NFPs) were the most intensely silver-stained bands in M-axoplasm microdissected from control M-axons. NFPs at about 235, 145, 123, 105, 80, and 60 kD in M-axoplasm were identified with four monoclonal and three polyclonal antibodies. Similar immunoblots of samples of the M-axon myelin sheath (M-sheath) showed no reactivity to antibodies against NFPs. For up to 62 days following spinal cord severance in goldfish maintained at 15 degrees C, the ultrastructure, protein banding pattern, and anti-NFP immunoreactivity of several distal segments of M-axons did not change compared with control M-axons. At 62 to 81 days after severance, novel bands appeared in many silver-stained gels and anti-NFP immunoblots of distal M-axons. NFP bands completely disappeared from distal M-axon segments of some M-axons as early as 72 days after severance. However, NFP bands persisted in some distal segments for up to 81 days after severance. The degradation of NFPs occurred equally along the entire length of a distal M-axon segment, that is, there was no indication of a proximal-to-distal or distal-to-proximal sequence of NFP degradation in distal segments of severed M-axons. These biochemical data were consistent with morphological data that showed little change in the diameter or ultrastructure of severed M-axons held at 15 degrees C for about 2 months followed by a rapid collapse of the entire distal segment at 72 to 85 days postseverance.

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