476 resultados para NEUROENDOCRINE
Resumo:
Cytokines are molecules that were initially discovered in the immune system as mediators of communication between various types of immune cells. However, it soon became evident that cytokines exert profound effects on key functions of the central nervous system, such as food intake, fever, neuroendocrine regulation, long-term potentiation, and behavior. In the 80's and 90's our group and others discovered that the genes encoding various cytokines and their receptors are expressed in vascular, glial, and neuronal structures of the adult brain. Most cytokines act through cell surface receptors that have one transmembrane domain and which transduce a signal through the JAK/STAT pathway. Of particular physiological and pathophysiological relevance is the fact that cytokines are potent regulators of hypothalamic neuropeptidergic systems that maintain neuroendocrine homeostasis and which regulate the body's response to stress. The mechanisms by which cytokine signaling affects the function of stress-related neuroendocrine systems are reviewed in this article.
Resumo:
Neuron-specific enolase (NSE) is a glycolytic enzyme present almost exclusively in neurons and neuroendocrine cells. NSE levels in cerebrospinal fluid (CSF) are assumed to be useful to estimate neuronal injury and clinical outcome of patients with serious clinical manifestations such as those observed in stroke, head injury, anoxic encephalopathy, encephalitis, brain metastasis, and status epilepticus. We compared levels of NSE in serum (sNSE) and in CSF (cNSE) among four groups: patients with meningitis (N = 11), patients with encephalic injuries associated with impairment of consciousness (ENC, N = 7), patients with neurocysticercosis (N = 25), and normal subjects (N = 8). Albumin was determined in serum and CSF samples, and the albumin quotient was used to estimate blood-brain barrier permeability. The Glasgow Coma Scale score was calculated at the time of lumbar puncture and the Glasgow Outcome Scale (GOS) score was calculated at the time of patient discharge or death. The ENC group had significantly higher cNSE (P = 0.01) and albumin quotient (P = 0.005), but not sNSE (P = 0.14), levels than the other groups (Kruskal-Wallis test). Patients with lower GOS scores had higher cNSE levels (P = 0.035) than patients with favorable outcomes. Our findings indicate that sNSE is not sensitive enough to detect neuronal damage, but cNSE seems to be reliable for assessing patients with considerable neurological insult and cases with adverse outcome. However, one should be cautious about estimating the severity of neurological status as well as outcome based exclusively on cNSE in a single patient.
Resumo:
Malignancy of pulmonary large cell carcinomas (LCC) increases from classic LCC through LCC with neuroendocrine morphology (LCCNM) to large cell neuroendocrine carcinomas (LCNEC). However, the histological classification has sometimes proved to be difficult. Because the malignancy of LCC is highly dependent on proteins with functions in the cell cycle, DNA repair, and apoptosis, p53 has been targeted as a potentially useful biological marker. p53 mutations in lung cancers have been shown to result in expression and protein expression also occurs in the absence of mutations. To validate the importance of both p53 protein expression (by immunostaining) and p53 gene mutations in lung LCC (by PCR-single strand conformational polymorphism analysis of exons 5, 6, 7, and 8) and to study their relationships with clinical factors and sub-classification we investigated the correlation of p53 abnormalities in 15 patients with LCC (5 classic LCC, 5 LCNEC, and 5 LCCNM) who had undergone resection with curative intent. Of these patients, 5/15 expressed p53 and none had mutant p53 sequences. There was a negative survival correlation with positive p53 immunostaining (P = 0.05). After adjustment for stage, age, gender, chemotherapy, radiotherapy, and histological subtypes by multivariate analysis, p53 expression had an independent impact on survival. The present study indicates that p53 assessment may provide an objective marker for the prognosis of LCC irrespective of morphological variants and suggests that p53 expression is important for outcome prediction in patients with the early stages of LCC. The results reported here should be considered to be initial results because tumors from only 15 patients were studied: 5 each from LCC, LCNEC and LCCNM. This was due to the rarity of these specific diseases.
Resumo:
Sleep disturbances have far-reaching effects on the neuroendocrine and immune systems and may be linked to disease manifestation. Sleep deprivation can accelerate the onset of lupus in NZB/NZWF1 mice, an animal model of severe systemic lupus erythematosus. High prolactin (PRL) concentrations are involved in the pathogenesis of systemic lupus erythematosus in human beings, as well as in NZB/NZWF1 mice. We hypothesized that PRL could be involved in the earlier onset of the disease in sleep-deprived NZB/NZWF1 mice. We also investigated its binding to dopaminergic receptors, since PRL secretion is mainly controlled by dopamine. Female NZB/NZWF1 mice aged 9 weeks were deprived of sleep using the multiple platform method. Blood samples were taken for the determination of PRL concentrations and quantitative receptor autoradiography was used to map binding of the tritiated dopaminergic receptor ligands [³H]-SCH23390, [³H]-raclopride and [³H]-WIN35,428 to D1 and D2 dopaminergic receptors and dopamine transporter sites throughout the brain, respectively. Sleep deprivation induced a significant decrease in plasma PRL secretion (2.58 ± 0.95 ng/mL) compared with the control group (25.25 ± 9.18 ng/mL). The binding to D1 and D2 binding sites was not significantly affected by sleep deprivation; however, dopamine transporter binding was significantly increased in subdivisions of the caudate-putamen - posterior (16.52 ± 0.5 vs 14.44 ± 0.6), dorsolateral (18.84 ± 0.7 vs 15.97 ± 0.7) and ventrolateral (24.99 ± 0.5 vs 22.54 ± 0.7 µCi/g), in the sleep-deprived mice when compared to the control group. These results suggest that PRL is not the main mechanism involved in the earlier onset of the disease observed in sleep-deprived NZB/NZWF1 mice and the reduction of PRL concentrations after sleep deprivation may be mediated by modifications in the dopamine transporter sites of the caudate-putamen.
Resumo:
The autonomic nervous system plays a key role in maintaining homeostasis under normal and pathological conditions. The sympathetic tone, particularly for the cardiovascular system, is generated by sympathetic discharges originating in specific areas of the brainstem. Aerobic exercise training promotes several cardiovascular adjustments that are influenced by the central areas involved in the output of the autonomic nervous system. In this review, we emphasize the studies that investigate aerobic exercise training protocols to identify the cardiovascular adaptations that may be the result of central nervous system plasticity due to chronic exercise. The focus of our study is on some groups of neurons involved in sympathetic regulation. They include the nucleus tractus solitarii, caudal ventrolateral medulla and the rostral ventrolateral medulla that maintain and regulate the cardiac and vascular autonomic tonus. We also discuss studies that demonstrate the involvement of supramedullary areas in exercise training modulation, with emphasis on the paraventricular nucleus of the hypothalamus, an important area of integration for autonomic and neuroendocrine responses. The results of these studies suggest that the beneficial effects of physical activity may be due, at least in part, to reductions in sympathetic nervous system activity. Conversely, with the recent association of physical inactivity with chronic disease, these data may also suggest that increases in sympathetic nervous system activity contribute to the increased incidence of cardiovascular diseases associated with a sedentary lifestyle.
Resumo:
Pain and sleep share mutual relations under the influence of cognitive and neuroendocrine changes. Sleep is an important homeostatic feature and, when impaired, contributes to the development or worsening of pain-related diseases. The aim of the present review is to provide a panoramic view for the generalist physician on sleep disorders that occur in pain-related diseases within the field of Internal Medicine, such as rheumatic diseases, acute coronary syndrome, digestive diseases, cancer, and headache.
Resumo:
Several forebrain and brainstem neurochemical circuitries interact with peripheral neural and humoral signals to collaboratively maintain both the volume and osmolality of extracellular fluids. Although much progress has been made over the past decades in the understanding of complex mechanisms underlying neuroendocrine control of hydromineral homeostasis, several issues still remain to be clarified. The use of techniques such as molecular biology, neuronal tracing, electrophysiology, immunohistochemistry, and microinfusions has significantly improved our ability to identify neuronal phenotypes and their signals, including those related to neuron-glia interactions. Accordingly, neurons have been shown to produce and release a large number of chemical mediators (neurotransmitters, neurohormones and neuromodulators) into the interstitial space, which include not only classic neurotransmitters, such as acetylcholine, amines (noradrenaline, serotonin) and amino acids (glutamate, GABA), but also gaseous (nitric oxide, carbon monoxide and hydrogen sulfide) and lipid-derived (endocannabinoids) mediators. This efferent response, initiated within the neuronal environment, recruits several peripheral effectors, such as hormones (glucocorticoids, angiotensin II, estrogen), which in turn modulate central nervous system responsiveness to systemic challenges. Therefore, in this review, we shall evaluate in an integrated manner the physiological control of body fluid homeostasis from the molecular aspects to the systemic and integrated responses.
Resumo:
Physiological evidence indicates that the supraoptic nucleus (SON) is an important region for integrating information related to homeostasis of body fluids. Located bilaterally to the optic chiasm, this nucleus is composed of magnocellular neurosecretory cells (MNCs) responsible for the synthesis and release of vasopressin and oxytocin to the neurohypophysis. At the cellular level, the control of vasopressin and oxytocin release is directly linked to the firing frequency of MNCs. In general, we can say that the excitability of these cells can be controlled via two distinct mechanisms: 1) the intrinsic membrane properties of the MNCs themselves and 2) synaptic input from circumventricular organs that contain osmosensitive neurons. It has also been demonstrated that MNCs are sensitive to osmotic stimuli in the physiological range. Therefore, the study of their intrinsic membrane properties became imperative to explain the osmosensitivity of MNCs. In addition to this, the discovery that several neurotransmitters and neuropeptides can modulate their electrical activity greatly increased our knowledge about the role played by the MNCs in fluid homeostasis. In particular, nitric oxide (NO) may be an important player in fluid balance homeostasis, because it has been demonstrated that the enzyme responsible for its production has an increased activity following a hypertonic stimulation of the system. At the cellular level, NO has been shown to change the electrical excitability of MNCs. Therefore, in this review, we focus on some important points concerning nitrergic modulation of the neuroendocrine system, particularly the effects of NO on the SON.
Resumo:
Intracerebroventricular (ICV) administration of bombesin (BN) induces a
syndrome characterized by stereotypic locomotion and grooming,
hyperactivity and sleep elimination, hyperglycemia and hypothermia,
hyperhemodynamics, feeding inhibition, and gastrointestinal function
changes. Mammalian BN-like peptides (MBNs), e.g. gastrin-releasing
peptide (GRP), Neuromedin C (NMC), and Neuromedin B (NMB), have been
detected in the central nervous system. Radio-labeled BN binds to specific
sites in discrete cerebral regions. Two specific BN receptor subtypes (GRP
receptor and NMB receptor) have been identified in numerous brain regions.
The quantitative 2-[14C]deoxyglucose ([14C]20G) autoradiographic
method was used to map local cerebral glucose utilization (LCGU) in the
rat brain following ICV injection of BN (vehicle, BN O.1Jlg, O.5Jlg). At each
dose, experiments were conducted in freely moving or restrained
conditions to determine whether alterations in cerebral function were the
result of BN central administration, or were the result of BN-induced
motor stereotypy. The anteroventral thalamic nucleus (AV) (p=O.029),
especially its ventrolateral portion (AVVL) (p
Resumo:
We examined the role of altered emotional functioning across the spectrum of injury severity (mild head injury [MHI], moderate/severe traumatic brain injury [TBI]), its implications for social behaviours, and the effect of modifying arousal and its relation to cognitive performance. In the first study (N = 230), students with self-reported MHI endorsed engaging in socially unacceptable and erratic behaviours significantly more often than did those with no MHI. We did not find significant differences between the groups in the measure of emotional intelligence (EI); however, for students who reported a MHI, scores on the EI measure significantly predicted reports of socially unacceptable behaviours such that lower scores predicted poorer social functioning, accounting for approximately 20% of the variance. Also, the experience of postconcussive symptoms was found to be significantly greater for students with MHI relative to their peers. In the second study (N = 85), we further examined emotional underarousal in terms of physiological (i.e., electrodermal activation [EDA]) and self-reported responsivity to emotionally-evocative picture stimuli. Although the valence ratings of the stimuli did not differ between students with and without MHI as we had expected, we found evidence of reduced and/or indiscriminate emotional responding to the stimuli for those with MHI which mimics that observed in other studies for persons with moderate/severe TBI. We also found that emotional underarousal followed a gradient of injury severity despite reporting a pattern of experiencing more life stressors. In the third study (N = 81), we replicated our findings of emotional underarousal for those with head trauma and also uniquely explored neuroendocrine aspects (salivary cortisol; cortisol awakening response [CAR]) and autonomic indices (EDA) of emotional dysregulation in terms of stress responsivity across the spectrum of injury severity (MHI [n = 32], moderate/severe TBI [n = 9], and age and education matched controls [n = 40]). Although the manipulation was effective in modifying arousal state in terms of autonomic and self-reported indices, we did not support our hypothesis that increased arousal would be related to improved performance on cognitive measures for those with prior injury. To our knowledge, this is the only study to examine the CAR with this population. Repeated measure analysis revealed that, upon awakening, students with no reported head trauma illustrated the typical CAR increase 45 minutes after waking, whereas, students who had a history of either mild head trauma or moderate/severe TBI demonstrated a blunted CAR. Thus, across the three studies we have provided evidence of emotional underarousal, its potential implications for social interactions, and also have identified potentially useful indices of dysregulated stress responsivity regardless of injury severity.
Resumo:
La scoliose idiopathique de l’adolescent (SIA) est une maladie dont la cause est encore inconnue, et qui génère des déformations complexes du rachis, du thorax et du bassin. La prévalence est de 4% dans la population adolescente au Québec. Cette pathologie affecte surtout les filles durant leur poussée de croissance pubertaire. Parmi plusieurs hypothèses émises, l’hypothèse neuroendocrinienne, impliquant une déficience en mélatonine comme agent étiologique de la SIA a suscité beaucoup d’intérêt. Cette hypothèse découle du fait que l’ablation de la glande pinéale chez le poulet produit une scoliose ressemblant sous plusieurs aspects à la pathologie humaine. La pertinence biologique de la mélatonine dans la scoliose est controversée, étant donné que la majorité des études chez l’homme n’ont pu mettre en évidence une diminution significative des niveaux de mélatonine circulante chez les patients scoliotiques. Nous avons démontré un dysfonctionnement dans la signalisation de la mélatonine au niveau des tissus musculo-squelettiques chez une série de patients atteints de SIA (Moreau & coll. 2004). Nous avons confirmé ce défaut chez un plus grand nombre de patients ainsi qu’en utilisant une nouvelle technologie (spectroscopie cellulaire diélectrique) n’ayant pas recours à un prétraitement des cellules donnant ainsi des résultats plus précis. Cette technique a montré la présence des mêmes groupes fonctionnels identifiés auparavant par la technique d’AMPc. Le dysfonctionnement de la signalisation de la mélatonine est dû à une phosphorylation accrue des protéines G inhibitrices. Ce défaut pourrait être causé par un déséquilibre de l’activité des kinases et phosphatases capables de réguler la phosphorylation des protéines Gi. Parmi ces kinases, PKCd a suscité initialement notre intérêt vu qu’elle peut phosphoryler les protéines Gi. Nous avons démontré que cette kinase interagit avec le récepteur de la mélatonine MT2 et que cette interaction varie selon le groupe fonctionnel auquel un patient SIA appartient. Par la suite nos travaux se sont dirigés vers la découverte d’effecteurs cellulaires régulés par la mélatonine et plus spécifiquement l’ostéopontine (OPN), compte tenu de son rôle présumé comme mécanorécepteur et dans certaines structures jouant un rôle dans la proprioception, le contrôle postural et la fonction vestibulaire. L’OPN a été identifiée initialement par sa surexpression au niveau protéique et de l’ARNm dans la musculature paraspinale uniquement chez les poulets scoliotiques. Nous avons également utilisé un autre modèle animal, la souris C57Bl/6 naturellement déficiente en mélatonine. Nous avons généré des souris bipèdes en amputant les membres antérieurs de souris OPN KO, des souris CD44 KO ainsi que des souris contrôles C57Bl/6. Nos résultats ont montré qu’aucune souris OPN KO (n=50) ou CD44 KO (n=60) ne développe la maladie, contrairement aux souris contrôles C57Bl/6 (n=50) dont 45% deviennent scoliotiques. Ces résultats nous ont poussés à investiguer le rôle de cette protéine dans l’étiopathogenèse de la maladie chez l’humain. Nos résultats ont montré une augmentation des niveaux circulants d’OPN chez les patients atteints de la SIA et que l’élevation en OPN corrélait avec la sévérité de la maladie. Nos études chez les enfants asymptomatiques nés de parents scoliotiques et qui sont plus à risque de développer la maladie ont aussi démontré des différences significatives au niveau des concentrations en OPN en comparaison avec les sujets sains. En effet, plusieurs enfants à risque présentaient des niveaux d’OPN supérieurs à 800ng/ml suggérant un plus grand risque de développer une scoliose indiquant aussi que l’augmentation des niveaux en OPN précède le début de la maladie.
Resumo:
Plusieurs cibles thérapeutiques dans le développement de médicaments contre l’obésité visent une diminution de l’appétit et de la masse adipeuse et à augmenter la dépense énergétique. L’appétit et le métabolisme énergétique sont régulés par certains neuropeptides qui agissent au niveau du système nerveux central, notamment dans l’hypothalamus. Parmi ces neuropeptides, les peptides RF-amide ou QRFP (pyroglutamylated RF-amide peptides), ainsi nommés par la présence du motif conservé Arg-Phe-NH2 dans le domaine C-terminal, induisent une hyperphagie et une augmentation de la masse adipeuse lorsqu’administrés par voie centrale. Les formes bioactives de ces peptides comprennent principalement 43 (QRFP-43) et 26 (QRFP-26) acides aminés. Outre les peptides QRFP, leurs récepteurs, les GPR103 de la famille des récepteurs à 7 passages transmembranaires couplés aux protéines G, sont exprimés dans l’hypothalamus. Plus récemment, des études ont montré la sécrétion de ces neuropeptides, et la présence du GPR103, dans le tissu adipeux. Cependant, le rôle de la voie signalétique (QRFP/GPR103) dans la régulation du métabolisme lipidique au niveau périphérique est peu connu. Les travaux de cette thèse ont porté sur la caractérisation des effets adipogéniques périphériques des neuropeptides QRFP. En premier lieu, nos travaux ont montré que les adipocytes 3T3-L1 et les adipocytes murins isolés des dépôts adipeux blancs expriment le prépro-QRFP et uniquement le récepteur GPR103B, un des deux sous-types de récepteurs présents chez la souris. De plus, nous avons montré que l’expression du récepteur est régulée par une diète riche en lipides réduisant l’expression du prépro-QRFP, mais augmentant celle du GPR103B dans les dépôts lipidiques. Chez l’humain, les adipocytes de l’omentum expriment autant le GPR103 que le prépro-QRFP. Nous avons de plus étudié la fonctionnalité du GPR103B dans les adipocytes 3T3-L1 par l’utilisation d’ARN interférents. Nous avons observé que ce récepteur médie les effets adipogéniques des QRFPs en augmentant l’expression du récepteur nucléaire PPAR-gamma (peroxisome proliferator-activated receptor gamma) et le facteur de transcription C/EBP-alpha (CCAAT-enhancer binding protein alpha) résultant en une accumulation des triglycérides. Nous avons aussi mis en évidence les effets anti-lipolytiques des QRFPs. En effet, les QRFP inhibent fortement la lipolyse induite avec l’isoprotérénol. L’étude des mécanismes moléculaires à l’origine des effets anti-lipolytiques du QRFP-43 a montré l’activation de la voie de signalisation PI3-K/PKB (phosphatidylinositol 3-kinase/protéine kinase B) en réponse à la stimulation du GPR103B. La réponse anti-lipolytique induite par le QRFP-43 est associée à une diminution de la phosphorylation de la périlipine A (PLIN1a) et de la lipase hormono-sensible (HSL). Nos études ont élucidé les mécanismes conduisant à l’inhibition de la phosphorylation de la PLIN1a en réponse à l’activation du GPR103B, impliquant l’inhibition de la migration de la cavéoline 1 et de la sous unité catalytique de la protéine kinase A (PKA) au niveau des gouttelettes lipidiques, ainsi que l’inhibition de l’activité des Src kinases et de la protéine kinase C (PKC). En conclusion, nos travaux ont montré que les QRFP-43 et -26 exercent un effet adipogénique et anti-lipolytique dans les adipocytes, mettant ainsi en évidence le rôle des neuropeptides QRFPs dans la régulation du métabolisme lipidique au niveau adipocytaire.
Resumo:
Problématique : La période périnatale est critique pour la santé et le développement de l’enfant. Les problèmes de santé mentale pendant la grossesse et après l’accouchement peuvent mener à des conséquences néfastes sur le développement de l’enfant et les issues plus tardives de sa santé. Cette thèse se concentre sur deux problèmes de santé mentale périnatale d’intérêt substantiel : le stress psychosocial pendant la grossesse et la dépression postnatale. Méthodes : Dans la première partie, nous donnons un aperçu de la dépression postnatale et effectuons une revue de la littérature portant sur deux facteurs de risque qui suscitent un nouvel intérêt, soit le génotype du transporteur de la sérotonine et l’état des acides gras oméga-3 polyinsaturés. Ensuite, dans le cadre de la deuxième partie, nous effectuons une revue de la littérature sur le stress psychosocial pendant la grossesse et la naissance prématurée, le tout en discutant les mécanismes physiologiques reliant ces deux derniers. Puis, nous examinons les liens existant entre le stress psychosocial et la durée de gestation au sein de la cohorte 3D, une étude longitudinale réalisée au Québec. Pour conclure, nous effectuons une investigation plus détaillée sur les facteurs de risque de l’anxiété liée à la grossesse dans la cohorte 3D, ceci en mettant l’accent sur l’historique des grossesses antérieures. Résultats : Dans la première partie, trois études menées rigoureusement révèlent des associations entre le génotype du transporteur de la sérotonine et la dépression postnatale. De même, les preuves s’accumulent à l’effet qu’une insuffisance en acides gras oméga-3 polyinsaturés soit associée à un risque plus élevé de dépression postnatale. Des données probantes préliminaires suggèrent qu’il pourrait y avoir une interaction entre les deux nouveaux facteurs de risque. Dans la deuxième partie, la littérature montre des liens entre le stress psychosocial pendant la grossesse et la naissance prématurée qui varient selon les dimensions du stress et le moment de mesure de celui-ci. Des associations plus fortes sont généralement trouvées plus tôt durant la gestation, alors que la perception subjective du stress et l’anxiété liée à la grossesse sont les plus étroitement associées à la naissance prématurée. Les voies comportementales, infectieuses, neuroinflammatoires, et neuroendocriniennes sont identifiées comme mécanismes physiologiques potentiels. Dans notre étude sur le stress psychosocial et la durée de la gestation au sein la cohorte 3D, nous avons observé une faible association entre l’anxiété liée à la grossesse au troisième trimestre et la naissance spontanée avant 39 semaines de gestation. Dans notre étude sur l’histoire obstétrique et l’anxiété liée à la grossesse, des liens indépendants ont été observés entre plusieurs issues de grossesses antérieures et l’anxiété liée à une grossesse subséquente. Conclusions : Les données probantes de la première partie soutiennent un programme de recherche ayant pour but de clarifier les liens entre les acides gras oméga-3 polyinsaturés, le génotype du transporteur de la sérotonine et la dépression postnatale. Dans la deuxième partie, nos résultats mettent en lumière l’importance relative du stress psychosocial comme prédicteur de la durée de gestation, tout en faisant une contribution importante pour des méta-analyses futures. Ils suggèrent d’ailleurs de nouvelles pistes de recherche pour les cadres conceptuels liant le stress et les issues de la naissance.
Resumo:
The growing demand for quality prawn seed from the farmers‘ and entrepreneurs, coupled with uncertainity of their availability from nature at the appropriate time in required quantities has prompted‘ research on problems connected with prawn seed production. Endocrine control of reproduction in the penaeid shrimp _P_. monodon has been investigated in detail by adopting a comprehensive approach to the problem. The major aspects of the study included in depth investigations of the cytological details of the reproductive and neuroendocrine organs in correlation with the process of gonadal maturation. Based on the conclusions drawn from such ultrastructural studies various endocrine manipulations were carried out to see their effects on gonadal maturation. Besides that studies on the reproductive quality of male P_. monodon and the cryopreservation of spermatophores form a part of the present investigation. The shrimp 3; Inonodon used in the present study were collected from the offshore waters of Cochin, Madras and Mandapam and from the culture ponds of Vypeen Island near Cochin (Kerala) . The entire investigation on the cytological aspects were carried out using standard histological and electron-microscopic methods. Endocrine manipulations and cryopreservation studies is also carried out using the standard methods.
Resumo:
The present investigation has been carried out to understand the process and events leading to maturation of the ovary and testis in the Indian white prawn Penaeus indicus. The study includes the classification of the ovarian maturity stages based on its colour, gonadosomatic index, oocyte diameter and morphological changes in the oocyte. Further the process of oogenesis has been investigated using light and electron microscopic techniques. A histochemical study of the ovary has also been carried out to determine the sequence in which yolk substances are synthesized or sequestered in the oocytes and also to elicit the nature of the penaeid yolk material. The process of spermatogenesis and the development of the spermatophore has been studied in detail using light and electron microscopic methods. In addition a brief histochemical study on the testis was also made to understand the nature of the organic reserves in the sperm cells.
