Your search keyword '"Hegstrom CD"' showing total 3 results

1. Short day lengths delay development of the SNB neuromuscular system in the Siberian hamster, Phodopus sungorus.

Author

Hegstrom CD and Breedlove SM

Subjects

Animals, Copulation physiology, Cricetinae, Male, Puberty, Delayed etiology, Time Factors, Circadian Rhythm physiology, Neuromuscular Junction growth & development, Penis growth & development, Phodopus growth & development, Photoperiod, Spinal Cord growth & development

Abstract

The Siberian hamster, Phodopus sungorus, breeds seasonally. In the laboratory, the seasonal breeding can be controlled by photoperiod, which affects the durations of nightly melatonin secretions. Winterlike short day lengths induce gonadal regression in adult animals, and pups born and maintained in short days undergo gonadal development much later than animals born into long days. The spinal nucleus of the bulbocavernosus (SNB) and its target muscles, the bulbocavernosus (BC) and levator ani (LA), comprise a sexually dimorphic, androgensensitive neuromuscular system involved in male reproduction. The SNB neuromuscular system was studied in male Siberian hamsters maintained from conception in short-day (8:16 h light/dark cycle) versus long-day (16:8 h light/dark cycle) conditions. At 40-47 days of age, development of three components of the SNB neuromuscular system were all significantly delayed in hamsters raised in the short photoperiod: BC/LA muscle weight, the size of SNB motoneuronal somata, and the area of the neuromuscular junctions at the BC/LA muscles of short-day hamsters were each significantly reduced relative to those of longday counterparts. Thus, development of the SNB reproductive system is delayed under short day lengths in this species.

Published

1998

2. Synapse loss and axon retraction in response to local muscle degeneration.

Author

Hegstrom CD and Truman JW

Subjects

Animals, Antibody Specificity, Axons chemistry, Axons drug effects, Cell Adhesion Molecules, Neuronal analysis, Cell Adhesion Molecules, Neuronal immunology, Cyclic GMP analysis, Cyclic GMP immunology, Ecdysteroids, Female, Immunohistochemistry, Insect Hormones pharmacology, Juvenile Hormones pharmacology, Larva cytology, Larva physiology, Male, Manduca, Membrane Glycoproteins analysis, Membrane Glycoproteins immunology, Metamorphosis, Biological physiology, Microscopy, Confocal, Motor Endplate chemistry, Motor Endplate physiology, Motor Neurons enzymology, Motor Neurons ultrastructure, Muscles physiopathology, Nerve Tissue Proteins analysis, Nerve Tissue Proteins immunology, Pupa cytology, Pupa physiology, Steroids pharmacology, Synaptotagmins, Axons physiology, Calcium-Binding Proteins, Motor Neurons pathology, Muscles innervation, Synapses physiology

Abstract

During metamorphosis in the moth, Manduca sexta, the abdominal body-wall muscle DEO1 is remodeled to form the adult muscle DE5. As the larval muscle degenerates, its motoneuron loses its end plates and retracts axon branches from the degenerating muscle. Muscle degeneration is under the control of the insect hormones, the ecdysteroids. Topical application of an ecdysteroid mimic resulted in animals that produced a localized patch of pupal cuticle. Muscle fibers underlying the patch showed a gradient of degeneration. The motoneuron showed end-plate loss and axon retraction from degenerating regions of a given fiber but maintained its fine terminal branches and end plates on intact regions. The results suggest that local steroid treatments that result in local muscle degeneration bring about a loss of synaptic contacts from regions of muscle degeneration.

Published

1996

3. Steroid control of muscle remodeling during metamorphosis in Manduca sexta.

Author

Hegstrom CD and Truman JW

Subjects

Animals, Biotin, Bromodeoxyuridine, Cell Division physiology, Cell Nucleus drug effects, Deoxyuracil Nucleotides, Ecdysone pharmacology, Hydrazines pharmacology, Insect Hormones pharmacology, Insecticides pharmacology, Juvenile Hormones pharmacology, Larva cytology, Larva growth & development, Muscle Denervation, Muscles cytology, Muscles drug effects, Muscles physiology, Pupa cytology, Pupa growth & development, Manduca growth & development, Metamorphosis, Biological physiology, Steroids pharmacology

Abstract

During metamorphosis in the tobacco hornworm, Manduca sexta, the abdominal body-wall muscle DEO1 is remodeled to form the adult muscle DE5. The degeneration of muscle DEO1 involves the dismantling of its contractile apparatus followed by the degeneration of muscle nuclei. As some nuclei are degenerating, others begin to incorporate 5-bromodeoxyuridine (BrdU), indicating the onset of nuclear proliferation. This proliferation is initially most evident at the site where the motoneuron contacts the muscle remnant. The developmental events involved in muscle remodeling are under the control of the steroid hormones, the ecdysteroids. The loss of the contractile elements of the larval muscle requires the rise and fall of the prepupal peak of ecdysteroids, whereas the subsequent loss of muscle nuclei is influenced by the slight rise in ecdysteroids seen after pupal ecdysis. Incorporation of BrdU by muscle nuclei depends on both the adult peak of the ecdysteroids and contact with the motoneuron. Unilateral axotomy blocks proliferation within the rudiment, but it does not block its subsequent differentiation into a very thin muscle in the adult.

Published

1996