Your search keyword '"Cheng MF"' showing total 13 results

1. Lesion induced new neuron incorporation in the adult hypothalamus of the avian brain.

Author

Cao J, Wenberg K, and Cheng MF

Subjects

Animals, Animals, Newborn, Birds growth & development, Cell Count, Cell Death physiology, Cell Division physiology, Cell Movement physiology, Cell Survival physiology, Electrolysis, Hypothalamus growth & development, Hypothalamus physiology, Male, Neurons physiology, Birds physiology, Hypothalamus cytology, Neurons cytology

Abstract

Cell loss in most adult vertebrate brain regions is thought to be irreversible. Here, we explore the effects of electrolytic lesions on the induction of cell proliferation and newborn neurons in the ventromedial nuclei (VMN) of the hypothalamus in young and adult ring doves. The hypothalamus does not normally recruit new neurons. Bromodeoxyuridine (BrdU) and tritiated thymidine ([3H]Thy) were used to identify cells born before and after bilateral electrolytic lesions. Hu and NeuN were used to identify neurons. TUNEL test for apoptosis and 3A7 antibodies were used to identify morphological changes of pre-existing cells. Lesions produced significantly more newborn cells in the subventricular zone (SVZ). The rate of cell proliferation peaked at 7-14 days postlesion. A fraction of these newborn cells were neuronal precursor and began to migrate away along the radial glial fibers 2 weeks after lesion. During this period, the outer area of the lesion site was marked with massive apoptosis and re-expression of radial glial-like fibers. In birds that survived 5 months, we found newly differentiated neurons in the outer area of the lesion site. We conclude that electrolytic lesion can invoke neuronal recruitment in the adult hypothalamus. We further suggest that lesion-induced apoptosis and re-expression of developmental mechanisms might be involved in the recruitment process.

Published

2002

2. Neurogenesis in juvenile and adult ring doves.

Author

Ling C, Zuo M, Alvarez-Buylla A, and Cheng MF

Subjects

Animals, Autoradiography, Cell Count, Cell Division physiology, Female, Male, Telencephalon cytology, Thymidine, Tritium, Aging physiology, Birds physiology, Neurons cytology, Telencephalon growth & development

Abstract

Studies in songbirds suggest that neurogenesis during the first few years of life is related to song learning. In this study, we examined whether postnatal neurogenesis occurs in a nonsongbird, the ring dove (Streptoplia risoria), and whether it persists to old age. Twenty-four hours after a single intramuscular injection of [3H]thymidine, labeled cells were present in the brains, particularly in the lateral wall of the lateral ventricle of juvenile (3-month and 8-month) and adult (1-year to 8-year) doves. Two months after multiple [3H]thymidine injections, there were fewer labeled cells in the ventricular zone (VZ), but many labeled cells with neuronal morphology in the parenchyma of the forebrain; labeled cells were confirmed as neurons by using neuron-specific markers, microtubule-associated protein-2 (MAP-2) and anti-neuronal nucleus (NeuN). In general, new neurons were distributed in the forebrain without clustering in any particular nucleus. During the first year of life, however, neostriatum caudale and hyperstriatum, the regions known to be essential for proper integration of sensory cues and reproductive behavior, contained more new neurons than any other brain regions. These neuronal additions showed an age-related decline; the first reduction coincided with the dove's attainment of adult physical size (about 3 months old) and the second occurred when the dove would normally attain reproductive fitness (about 1 year old). A low level of forebrain neurogenesis persisted up to 8 years of age (the oldest animals studied). These observations suggest that neurogenesis in adulthood is widespread among birds but that the biological significance of adult neurogenesis in the ring dove remains to be determined.

Published

1997

3. Avian auditory pathways show met-enkephalin-like immunoreactivity.

Author

Durand SE, Zuo MX, Zhou SL, and Cheng MF

Subjects

Animals, Auditory Pathways immunology, Axons physiology, Enkephalin, Methionine immunology, Immunoenzyme Techniques, Immunohistochemistry, Inferior Colliculi cytology, Inferior Colliculi physiology, Lysine analogs & derivatives, Phytohemagglutinins, Auditory Pathways metabolism, Birds physiology, Enkephalin, Methionine metabolism

Abstract

Pathways associated with a recently defined region of the avian auditory thalamus, the shell of the nucleus ovoidalis (Ov), were examined for met-enkephalin immunoreactivity. The presence of enkephalin-like immunoreactive (ELI) perikarya within the medial margin of the inferior colliculus (ICM), afferent to the Ov shell, implicated ICM as a source of ELI fibers within the Ov shell and tract. The shell also contained ELI perikarya and its targets, including the ventromedial hypothalamus and caudoventral paleostriatal complex, were characterized by ELI fields. These data suggest that enkephalinergic auditory pathways, in parallel with traditionally recognized auditory projections, target regions of the avian basal forebrain.

Published

1993

4. Auditory-responsive units in the midbrain vocal nuclei in the ring dove (Streptopelia risoria).

Author

Cheng MF and Havens MH

Subjects

Acoustic Stimulation, Animals, Auditory Pathways physiology, Female, Mesencephalon anatomy & histology, Motor Neurons physiology, Receptors, Estrogen metabolism, Thalamic Nuclei physiology, Birds physiology, Mesencephalon physiology, Vocalization, Animal physiology

Abstract

The avian midbrain vocal control nucleus, n. intercollicularis (ICo), receives inputs from midbrain auditory nucleus and from a subdivision of auditory thalamus, suggesting a possibility of auditory response units in the ICo. Using single-unit recordings, we explored auditory response units throughout the dorsomedial midbrain of female ring doves under deep general anesthesia (acute preparation). We found exclusively in the ICo, units that responded preferentially to taped courtship coos of conspecifics (male or female coos) and units that responded to specific frequencies present in coos. Units in the midbrain auditory nucleus also responded to these auditory stimulation in a tonotopic fashion, and were responsive to tone burst as well. The results, along with data from other experiments, suggest that species-specific sound responsive units within the ICo may mediate acoustically facilitated female coos and endocrine responses of the ring dove.

Published

1993

5. Interaction of lighting and other environmental variables on activity of hypothalamo-hypophyseal-gonadal system.

Author

Cheng MF

Subjects

Animals, Female, Gonadotropins, Pituitary physiology, Hypothalamus physiology, Male, Organ Size, Ovary physiology, Ovulation, Pituitary Gland physiology, Sexual Behavior, Animal physiology, Testis anatomy & histology, Testis physiology, Birds physiology, Light

Published

1976

6. Do ring doves copulate more than necessary for fertilization?

Author

Cheng MF, Porter M, and Ball G

Subjects

Animals, Castration, Female, Male, Time Factors, Birds physiology, Copulation, Fertilization

Published

1981

7. Diurnal variations of plasma FSH, LH, and testosterone in male ring doves kept under different photoperiods.

Author

Balthazart J, Reboulleau C, and Cheng MF

Subjects

Animals, Circadian Rhythm, Light, Male, Time Factors, Birds physiology, Follicle Stimulating Hormone blood, Luteinizing Hormone blood, Testosterone blood

Published

1981

8. Hormonal mediation of reproductive behavior.

Author

Ottinger MA, Adkins-Regan E, Buntin J, Cheng MF, DeVoogd T, Harding C, and Opel H

Subjects

Aging, Animals, Birds anatomy & histology, Brain anatomy & histology, Dihydrotestosterone biosynthesis, Dose-Response Relationship, Drug, Estradiol physiology, Female, Male, Nesting Behavior, Prolactin pharmacology, Seasons, Sex Differentiation, Sexual Behavior, Animal drug effects, Testosterone metabolism, Testosterone physiology, Birds physiology, Hormones physiology, Reproduction, Sexual Behavior, Animal physiology

Abstract

Reproductive capability requires synchronization of both endocrine and behavioral components of reproduction. The classic view of reproductive behavior was that there was simply direct stimulation of a behavioral response by the appropriate gonadal steroid. However, it has become clear with recent developments in the field of behavioral endocrinology that the relationship of hormonal and behavioral processes is complex. In addition to the complexity of the mechanisms involved, other factors, both social and environmental, influence both the endocrine and behavioral responses. This paper provides an overview of selected issues within the field of behavioral endocrinology which deal with mechanisms of hormonal induction of behavior at various stages of the life cycle and with factors that interact with these processes.

Published

1984

9. Ascending vocalization pathways in the female ring dove: projections of the nucleus intercollicularis.

Author

Akesson TR, De Lanerolle NC, and Cheng MF

Subjects

Animals, Autoradiography, Birds anatomy & histology, Brain Stem physiology, Diencephalon physiology, Female, Mesencephalon anatomy & histology, Neural Pathways anatomy & histology, Birds physiology, Mesencephalon physiology, Neural Pathways physiology, Vocalization, Animal physiology

Abstract

Nest-coo (courtship) vocalization is an estrogen-dependent component of a sequence of behaviors leading to egg-laying in the ring dove (Streptopelia risoria). Implantation of estrogen in the nucleus intercollicularis of ovariectomized females restores the ability to produce nest-coos. Lesion of n. intercollicularis specifically disrupts nest-cooing and inhibits follicular development. We used anterograde transport of tritiated leucine to identify regions that receive input from n. intercollicularis. As a control, isotope was injected in an auditory nucleus (nucleus mesencephalicus lateralis, pars dorsalis) neighboring the n. intercollicularis. A strong projection to the nucleus was observed, demonstrating a potential interaction between auditory and vocalization systems at the level of the midbrain. Local projections of n. intercollicularis were observed in midbrain and hind brain nuclei including the nucleus tegmenti pedunculo-pontinus, pars compacta and nucleus papillioformis. A conspicuous projection ascended centrally via the mesencephalic central gray. Proceeding rostrally, this pathway was traced to the nucleus periventricularis magnocellularis and tissue surrounding it. At its rostral extent, the pathway was found to project to the nucleus preopticus medialis, the anterior medial hypothalamus, and the lateral hypothalamus. These results are consistent with the possibility of a nucleus intercollicularis projection to regions that regulate reproductive function.

Published

1987

10. Egg fertility and prolactin as determinants of reproductive recycling in doves.

Author

Cheng MF

Subjects

Animals, Castration, Copulation, Embryo Implantation, Female, Male, Ovum, Birds physiology, Fertility, Prolactin physiology, Sexual Behavior, Animal

Published

1977

11. Retrograde HRP demonstration of afferent projections to the midbrain and nest calls in the ring dove.

Author

Cheng MF, Akesson TR, and de Lanerolle NC

Subjects

Afferent Pathways physiology, Animals, Brain Mapping, Female, Birds physiology, Mesencephalon physiology, Vocalization, Animal physiology

Abstract

Midbrain control of vocalization was evaluated in the ring dove by determining the major afferent inputs with retrograde tract tracing technique. Horseradish peroxidase was infused into various portions of the nucleus intercollicularis, an estrogen concentrating area, which disrupts nest calls when lesioned and induces the vocalization when stimulated by estrogen. Most labelled cell bodies were found in the archistriatum, including a region homologous to the mammalian amygdala.

Published

1987

12. Short day induced gonadal regression in ring doves (Streptopelia risoria): a case for seasonal variation.

Author

Cheng MF, Barbiere C, and Balthazart J

Subjects

Animals, Female, Male, Organ Size, Ovarian Follicle, Ovary anatomy & histology, Testis physiology, Time Factors, Birds physiology, Light, Ovary physiology, Seasons

Abstract

Changes in follicular size (in diameter) were studied by laparotomy under various photoperiodic regimes in the domesticated ring doves that have been kept under standard laboratory conditions for generations. Follicular response shows two distinct patterns: 1. a shift from standard laboratory photoperiodic regime (LD 14:10) to extra long day (LD 20:4) accelerated the follicular development in the spring as well as in the autumn; 2. a shift from the standard laboratory photoperiodic regime (LD 14:10) to short day (LD 8:16 or LD 1/2:23 1/2) induced follicular regressions in the autumn but not in the spring. We propose that there is a responsive phase (spring) and nonresponsive phase (autumn) of hypothalamo-hypophyseal-ovarian system in the ring doves. Comparison of radioimmunoassay of pituitary and plasma LH value suggests that the responsive and non-responsive phase involves mainly release mechanisms. In the autumn, the release mechanism becomes insensitive to stimuli below certain thresholds. Our ring doves are kept in responsive phase throughout the year under the long photoperiodicity (LD 14:10). However, the effect of long day does not appear to override completely the seasonal effect.

Published

1980

13. Serum prolactin levels and crop-sac development in ring doves during a breeding cycle.

Author

Cheng MF and Burke WH

Subjects

Animals, Female, Male, Nesting Behavior physiology, Organ Size, Ovulation, Sex Factors, Sexual Behavior, Animal physiology, Species Specificity, Birds physiology, Crop, Avian physiology, Prolactin blood

Abstract

Using a turkey prolactin radioimmunoassay, the serum prolactin levels of male and female ring doves (Streptopelia risoria) during the breeding cycle were measured and their circulating prolactin levels were compared to crop-sac weight on a within-bird basis. During the early phase of the incubation period, crop weight showed a delayed response to prolactin stimulation and there was no correlation; during the midincubation period when prolactin and crop-sac weight were increasing, there was a strong positive correlation; around hatching, when prolactin was at its peak, there was no correlation. There were again strong positive correlations at later samples, when squabs were developing and both prolactin and crop-sac weight were declining. Thus, it appears that the correlation between the circulating prolactin level and crop-sac development depends on the stage of the breeding cycle. While males and females showed similar pattern of circulating prolactin during the period of incubation and parental care, only females consistently showed a postovulatory rise of prolactin. These results were discussed in the context of the role of prolactin in the breeding cycle.

Published

1983