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441	NADPH oxidase-dependent reactive oxygen species stimulate the differentiation of endocrine progenitors in murine pancreas. January 2014 (has links) 胰臟內分泌細胞分化的調控事件的研究揭示了胰島素分泌細胞的形成。這一原理既有利於體外誘導用於移植的胰島素分泌細胞，又可應用于糖尿病病人自體胰島素分泌細胞的再生。正在發育的組織和器官中，發現了腎素血管緊張素（RAS）成員，揭示了他們在發育過程中的潛在調控作用。另外，對 RAS 信號系統做出應答的活性氧化物質（ROS），被認為是第二信使，通過對轉錄調控因子的氧化還原的修飾促進分化。作為 ROS 的主要來源，NADPH 已被證實在各類細胞和組織中參與了祖細胞的分化。儘管如此，依賴於 NADPH 氧化酶的 ROS對于胰腺內分泌細胞分化的調控作用仍不清楚。基於這個背景，本研究致力於揭示 RAS 和 NADPH 氧化酶依賴性 ROS 在胰腺內分泌細胞分化中的作用。本實驗將在小鼠胰臟原基培養物和尿鏈黴素（STZ）誘導的新生大鼠上進行。結果顯示，經典 RAS 成員中的血管緊張素 2 型受體（AT₂R）分佈於內分泌祖細胞的細胞核，之後穿梭定位於胰島素分泌細胞的細胞質。阻斷 AT₂R 功能抑制了Ngn3，胰島素的表達以及 β 細胞的增值。在不同的胚胎期 ROS 的水平發生了改變。對于培養的胰臟原基施加適當的外源 ROS，刺激了內分泌細胞的分化。同時，ROS 清除劑減弱了胰島細胞分化和成熟的標記基因的表達。NOX4 以及其相關的亞基 p22phox 是 NADPH 氧化酶成員，其在胰臟發育過程中的變化同 ROS 水平的變化相似，並且持續表達與內分泌細胞系統。在 NGN3 高表達的胚胎期15.5 天，它們定位于表達 NGN3 的細胞；在 NGN3 表達下調，且胰島素表達升高的胚胎期 17.5 天，它們分佈於胰島素表達細胞。而且，NADPH 氧化酶的抑製劑 DPI 削弱了胰臟培養物中的內分泌祖細胞的分化, 外源 H₂O₂ 的加入扭轉了這一現象。 / 另一方面，在 STZ 誘導的新生大鼠的研究中，DPI 負調節 β 細胞的再生。血糖失調，胰島結構毀壞以及血清胰島素匱乏的現象發生在了 DPI 處理組。另外，DPI 減弱了 NGN3 的表達而並非 Ki67, 顯示 β 細胞的分化而並非增值對於 ROS 的刺激進行了應答。在體內和體外的實驗中，DPI 也抑制了 NGN3 的轉綠調控因子 SOX9 在胰腺祖細胞中的表達。有趣的是，過表達 SOX9 可以恢復 DPI 引發的對於 NGN3 的抑制。結合以上數據，本研究顯示 NADPH 氧化酶依賴性ROS 誘導的信號通路參與了胰腺祖細胞到胰島素分泌細胞的分化。 / Investigations into the regulatory events that modulate pancreatic endocrine cell differentiation shed light on the generation of sufficient insulin-producing cells in vitro for transplantation or regeneration of β cells in patients with diabetes. The expression of renin-angiotensin system (RAS) components has been detected in development tissue and organs, implicating their regulatory role in developmental processes. On the other hand, reactive oxygen species (ROS) are responsive to RAS signaling pathways and act as second messengers to promote differentiation through redox modification of transcriptional factors essential for differentiation. As a major source of ROS, NADPH oxidase has been shown to participate in the progenitor differentiation in a variety of cells and tissues. Despite this finding, the role of NADPH oxidase-dependent ROS in regulating pancreatic endocrine cell differentiation remains ambiguous. Against this background, the study was aimed at elucidating the roles of RAS components and NADPH oxidase-derived ROS during differentiation of pancreatic endocrine cells using mouse pancreatic rudiments and streptozotocin-treated neonatal rats. / Results showed that angiotensin II type 2 receptor (AT₂R), a major component of the classical RAS, was localized within the nuclei of endocrine progenitors in the cultured pancreatic rudiments; following the differentiation of endocrine progenitors into insulin producing cells, it translocated to cytoplasm. Blockade of AT₂R impeded the expression of Ngn3 and insulin as well as proliferation of β-cells. In addition, the dynamic changes of ROS levels were found in mouse pancreata at different embryonic days, concomitant with induction of endocrine cell differentiation induced by modest exogenous ROS in pancreatic rudiment cultures. Moreover, scavenger of ROS diminished the expression of islet cell markers for differentiation and maturation. NOX4 and its associated subunit p22phox, which are the member of NADPH oxidase, exhibited similar changes of expression to that of ROS levels during pancreas development and persisted in the endocrine lineage; they were located in NGN3⁺ cells at E15.5 during the burst of NGN3 expression and then distributed in insulin⁺ cell at E17.5, the latter being the phase that has a decline in NGN3 expression with an increase of insulin. Furthermore, administration of NADPH oxidase inhibitor, diphenylene iodonium (DPI) attenuated the differentiation of endocrine progenitors in rudiment cultures, while exogenous ROS reversed this effect. / On the other hand, studies performed in streptozotocin-induced neonatal rats showed that β cell regeneration was negatively affected by DPI treatments; consistently, impaired blood glucose control, disturbed islet architecture and deficient serum insulin were observed in DPI-treated groups. In addition, DPI treatments blunted NGN3 expression, but not Ki67-labeling beta-cells, suggesting that differentiation beyond proliferation of β-cells was accountable in response to ROS stimulation. Administration of DPI also suppressed the levels of SOX9, a transcriptional regulator of NGN3, in pancreatic progenitor cells, as evidenced by both in vivo and in vitro studies. Interestingly, over-expression of SOX9 could restore the repression of NGN3 induced by DPI. Taken all these data together, our results indicate that NADPH oxidase-dependent ROS-induced signaling pathway is involved in the differentiation of pancreatic endocrine progenitors into insulin-producing β cells. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Liang, Juan. / Thesis (Ph.D.) Chinese University of Hong Kong, 2014. / Includes bibliographical references (leaves 171-205). / Abstracts also in Chinese. Pancreatic beta cells Cell differentiation Active oxygen Animal models in research Mice Insulin-Secreting Cells Reactive Oxygen Species NADP Cell Differentiation Models, Animal
442	Efeitos da estimulação elétrica do córtex motor na modulação da dor: análise comportamental e eletrofisiológica em ratos / Effects of electrical stimulation of motor cortex on pain modulation: behavior and electrophysiological study in rats. Fonoff, Erich Talamoni 14 September 2007 (has links) Introdução. Nos últimos a função motora vem sendo associada com a atenuação sensitiva e de dor, logo antes, durante e apos a contração muscular. No entanto as vias anatômicas e funcionais deste fenômeno não são conhecidas. O objetivo deste estudo é o de criar um modelo animal e investigar o efeito da estimulação subliminar do córtex motor (ECM) no limiar nociceptivo e na atividade neuronal subcortical. Método. O limiar nociceptivo foi avaliado por teste plantar e reflexo de retirada da cauda antes e após o implante dos eletródios epidurais sobre o córtex motor da pata posterior orientado por mapa funcional na mesma cepa de ratos. Os mesmos testes foram repetidos antes, durante e após a ECM. Antagonismo sistêmico do por naloxona foi incluído neste protocolo para investigar a relação com mediação opióide. O registro neuronal multiunitário do núcleo centro mediano (CM) e ventral posterolateral (VPL) do tálamo e da substância periaqüeductal (SPM) foi realizado antes, durante e após ECM ipso e contralateral. Resultados. O implante per se não causou alterações no limiar nociceptivo. ECM induziu significativa antinocicepção seletiva na pata contralateral mas não na ipsolateral. Este efeito não mais foi observado 15 minutos após o término da estimulação. Nenhuma alteração motora e comportamental foi observada nos testes de campo aberto. A mesma estimulação no córtex sensitivo e parietal posterior não causou quaisquer alterações de limiar nociceptivo. Administração sistêmica de naloxone reverteu completamente o efeito antes observado com a ECM. O registro neuronal multiunitário evidenciou diminuição na atividade do CM durante e após a ECM contra e ipsolateral. O ritmo de disparos neuronais no VPL também mostrou diminuição apenas com a ECM ipsolateral. No entanto os neurônios da SPM aumentaram significativamente a freqüência de disparos com ECM ipsolateral e não com a contralateral. Conclusão. A ECM subliminar está relacionada consistentemente com a atenuação sensitiva durante o comportamento, provavelmente mediado por inibição talâmica e ativação da SPM. / Background. The motor function has been associated to sensory and pain attenuation, before during and shortly after the muscle activity. How ever the anatomical and functional basis of this phenomenon is not yet defined. The present study was designed to set an animal model and investigate the effect of subthreshold electrical stimulation of motor cortex (MCS) on pain threshold and neuron activity of thalamus and periaqüedutal gray. Method. Nociceptive thresholds of hind paws and the tail flick reflex were evaluated before and after surgical placement of epidural electrodes; before during and after electrical stimulation of motor cortex. Opioid antagonism was also included in this protocol in order to define neurotransmitter mediation of this process. Multiunit recording of thalamic median center (CM) and ventral posterolateral nuclei (VPL) and lateral periaqüedutal gray (SPM) were performed before and after electrical stimulation of ipso and contralateral motor cortex. Results. The procedure itself did not induce any threshold changes. MCS induced selective antinociception of contralateral paw, but no changes were detected in the nociceptive threshold of the ipsolateral side. This effect disappeared completely 15 minutes after the stimulation was ceased. No behavioral or motor impairment were observed during and after the stimulation session in the open field test. The same stimulation on sensory and posterior parietal cortex did not elicit any changes in behavioral and nociceptive tests. Systemic administration of naloxone completely reversed the previous observed antinociceptive effect. Multiunit recording evidenced decrease in spontaneous neuron firing in CM with short recovery time during ipso and contralateral MCS. Neuron activity in VPL was also significantly decreased during ipsolateral MCS but not with contralateral stimulation. How ever, neuron firing in SPM was significantly increased during and long after ipsolateral MCS but not with contralateral stimulation. Conclusion. Subthreshold MCS is consistently related to sensory attenuation during behavior, probably through thalamic inhibition and SPM activation. Action potentials Animal models. Behavior Comportamento Córtex motor/fisiologia Dor Electrical stimulation Estimulação elétrica Modelos animais Motor cortex/physiology Neurônios Neurons Pain Potenciais de ação Tálamo Thalamus
443	Association of Adiponectin Profiles with Dietary Carbohydrate Intake, Feeding, Gender, Body Weight, Fat Mass, and Insulin Sensitivity in Healthy Young Cats (Felis catus) Heok Yit Tan Unknown Date (has links) Adiponectin is an adipose-derived protein (adipocytokine) that is secreted by adipose tissue. It has insulin-sensitizing, anti-inflammatory and cardio-protective properties, and is thought to be protective against obesity-related diseases such as type 2 diabetes. Humans and cats are two species that commonly develop type 2 diabetes associated with insulin resistance, impaired beta cell function and spontaneous islet amyloid deposition. The domestic cat (Felis catus) has recently been proposed as an animal model for human type 2 diabetes. However, little is known about the physiology of adiponectin in cats. Therefore, we set out to investigate the association of adiponectin profiles with dietary carbohydrate intake, feeding, body weight, fat mass, and insulin sensitivity in healthy young adult cats (n=32; 2-4 years old; gender ratio 1:1; body condition 4-5/9). Cats were fed a moderate carbohydrate diet (37% ME) at maintenance energy requirements for four weeks. Cats were then assigned to either receive a low (19% ME) or high (52% ME) carbohydrate diet and fed at maintenance energy requirements for another four weeks, followed by ad-libitum feeding for eight weeks to facilitate weight gain. Adiponectin profiles including total circulating adiponectin and its distribution [low molecular weight (LMW) and high molecular weight (HMW) adiponectin], and proportion of adiponectin that is HMW (SA) were measured by ELISA and velocity sedimentation using sucrose gradients, followed by Western blotting, respectively. We demonstrated inter-animal variation in total adiponectin concentration at baseline (0.6 to 15.0 g/mL), with the adiponectin present in both LMW and HMW forms. Feeding with a high carbohydrate diet for four weeks at maintenance energy requirements resulted in increased total adiponectin concentration, which was associated with an increased concentration of LMW adiponectin. In contrast, feeding with a low carbohydrate diet for four weeks at maintenance energy requirements resulted in increased concentration of HMW adiponectin, decreased LMW adiponectin concentration, and increased SA, without a change in total adiponectin concentration. In cats fed the high carbohydrate diet, total adiponectin and HMW adiponectin concentrations become lower at six hours after feeding, as compared to the fasting concentrations. This phenomenon was not observed in cats fed a low carbohydrate diet, indicating a diet-dependent postprandial effect. There was no effect of gender on any of the adiponectin profiles in cats. Unlike other studies in humans and mice in which adiponectin concentrations decreased as fat mass increased, our data indicate that a moderate weight gain achieved by ad libitum feeding of a low carbohydrate diet for eight weeks correlated with increased adiponectin concentrations. Total adiponectin concentration (mirrored by HMW adiponectin) was positively correlated with body weight gain and fat mass gain (but not absolute fat mass) in our overweight cats. Furthermore, the fat mass-related increases in plasma adiponectin over eight weeks correlated with insulin sensitivity (higher adiponectin concentration corresponded to greater insulin sensitivity in overweight cats). These data hint at the possibility that in overweight animals, adiponectin is similar to other adipokines that rise concomitantly with increased of moderate fat mass gain and thus increases insulin sensitivity. Overall, the knowledge in this study therefore provides useful information to veterinarians and cat food manufacturers, and forms a foundation for future studies to extend our knowledge of adiponectin in cats. Data gathered in cats may also be applicable to humans and could therefore inform research using cats as an animal model of human obesity and type 2 diabetes. 07 Agricultural and Veterinary Sciences adiponectin high molecular weight (HMW) cats dietary carbohydrate intake postprandial body weight fat insulin sensitivity type 2 diabetes animal models
444	Fcγ Receptors in the Immune Response Díaz de Ståhl, Teresita January 2001 (has links) <p>Circulating immune complexes play an important role in the modulation of antibody responses and in the pathogenesis of immune diseases. This thesis deals with the <i>in vivo </i>regulatory properties of antibodies and their specific Fc receptors.</p><p>The immunosuppressive function of IgG is used clinically, to prevent rhesus-negative women from becoming sensitized to rhesus-positive erythrocytes from the fetus. The mechanism behind this regulation is poorly understood but involvement of a receptor for IgG, FcγRII, has been suggested. It is shown in this thesis that IgG and also IgE induce immunosuppression against sheep erythrocytes to a similar extent both in mice lacking all the known Fc receptors as in wild-type animals. These findings imply that antibody-mediated suppression of humoral responses against particulate antigens is Fc-independent and that the major operating mechanism is masking of epitopes.</p><p>Immunization with soluble antigens in complex with specific IgG leads to an augmentation of antibody production. The cellular mechanism behind this control is examined here and it is found that the capture of IgG2a immune complexes by a bone marrow-derived cell expressing FcγRI (and FcγRIII) is essential. An analysis of the ability of IgG3 to mediate this regulation indicated that, in contrast, this subclass of IgG augments antibody responses independently of FcγRI (and FcγRIII). These findings suggest that distinct mechanisms mediate the enhancing effect of different subclasses of antibodies.</p><p>Finally, the contribution of FcγRIII was studied in the development of collagen-induced arthritis (CIA), an animal model for rheumatoid arthritis in humans. It was discovered that while DBA/1 wild-type control mice frequently developed severe CIA, with high incidence, FcγRIII-deficient mice were almost completely protected, indicating a crucial role for FcγRIII in CIA.</p><p>The results presented here help to understand how immune complexes regulate immune responses <i>in vivo</i> and show that Fc receptors for IgG, if involved, could be new targets for the treatment of immune complex-related disorders.</p> Genetics Fc Receptors IgG Receptors IgE Receptors Immune regulation In vivo animal models Mouse Rh prophylaxis Rheumatoid arthritis Transgenic/knockout Genetik Clinical genetics Klinisk genetik
445	Islet Xenotransplantation : An Experimental Study of Barriers to Clinical Transplantation / Xenotransplantation av Langerhanska öar : Experimentiella studier av hinder för klinisk tillämpning Schmidt, Peter January 2004 (has links) <p>In the field of transplantation, the increasing deficit of human donors have lead to an interest in animals as an alternative source of organs and tissues. </p><p>Different <i>in vitro </i>systems and rodent models of xenotransplantation were used to examine the most significant barriers that have to be overcome, before isolated islets of Langerhans from pigs can be used as a cure for insulin-dependent diabetes mellitus in humans.</p><p>In clinical transplantation, islets are infused into the liver through the portal vein. During this procedure the islets are susceptible to harmful innate reactions triggered in blood. Adenoviral vectors generating transgenic expression of human complement regulatory proteins were evaluated in pig islets and shown to confer protection against acute complement-mediated damage. </p><p>Transplanted islets escaping this immediate destruction will be targets of a cellular immune response. Using a new mouse model of islet xenograft rejection, it was demonstrated that macrophages, effector cells in the rejection, were part of an MHC-restricted xenospecific immune response mediated by T cells. In a strain of knockout mice it was further shown that this process can proceed in the absence of an important signalling system, mediated by Toll-like receptors, between cells in innate and adaptive immunity. These findings illustrate some of the mechanistic differences compared to cellular islet allograft rejection which partly explain why immunosuppressive drugs used in clinical allotransplantation is not sufficient for preventing xenograft rejection. </p><p>Porcine endogenous retroviruses (PERV) remain a safety concern in xenotransplantation. Characterization of PERV in pig islets indicated that virus expression is low <i>in vitro </i>but increases during the immediate time period following transplantation. This suggests that antiviral therapies administered at the time of transplantation could be used for preventing the risk of PERV transmission after xenotransplantation.</p> Medicine xenotransplantation islets of Langerhans rejection diabetes porcine endogenous retroviruses quantitative RT-PCR cytokines animal models Medicin
446	Fcγ Receptors in the Immune Response Díaz de Ståhl, Teresita January 2001 (has links) Circulating immune complexes play an important role in the modulation of antibody responses and in the pathogenesis of immune diseases. This thesis deals with the in vivo regulatory properties of antibodies and their specific Fc receptors. The immunosuppressive function of IgG is used clinically, to prevent rhesus-negative women from becoming sensitized to rhesus-positive erythrocytes from the fetus. The mechanism behind this regulation is poorly understood but involvement of a receptor for IgG, FcγRII, has been suggested. It is shown in this thesis that IgG and also IgE induce immunosuppression against sheep erythrocytes to a similar extent both in mice lacking all the known Fc receptors as in wild-type animals. These findings imply that antibody-mediated suppression of humoral responses against particulate antigens is Fc-independent and that the major operating mechanism is masking of epitopes. Immunization with soluble antigens in complex with specific IgG leads to an augmentation of antibody production. The cellular mechanism behind this control is examined here and it is found that the capture of IgG2a immune complexes by a bone marrow-derived cell expressing FcγRI (and FcγRIII) is essential. An analysis of the ability of IgG3 to mediate this regulation indicated that, in contrast, this subclass of IgG augments antibody responses independently of FcγRI (and FcγRIII). These findings suggest that distinct mechanisms mediate the enhancing effect of different subclasses of antibodies. Finally, the contribution of FcγRIII was studied in the development of collagen-induced arthritis (CIA), an animal model for rheumatoid arthritis in humans. It was discovered that while DBA/1 wild-type control mice frequently developed severe CIA, with high incidence, FcγRIII-deficient mice were almost completely protected, indicating a crucial role for FcγRIII in CIA. The results presented here help to understand how immune complexes regulate immune responses in vivo and show that Fc receptors for IgG, if involved, could be new targets for the treatment of immune complex-related disorders. Genetics Fc Receptors IgG Receptors IgE Receptors Immune regulation In vivo animal models Mouse Rh prophylaxis Rheumatoid arthritis Transgenic/knockout Genetik Clinical genetics Klinisk genetik
447	Islet Xenotransplantation : An Experimental Study of Barriers to Clinical Transplantation / Xenotransplantation av Langerhanska öar : Experimentiella studier av hinder för klinisk tillämpning Schmidt, Peter January 2004 (has links) In the field of transplantation, the increasing deficit of human donors have lead to an interest in animals as an alternative source of organs and tissues. Different in vitro systems and rodent models of xenotransplantation were used to examine the most significant barriers that have to be overcome, before isolated islets of Langerhans from pigs can be used as a cure for insulin-dependent diabetes mellitus in humans. In clinical transplantation, islets are infused into the liver through the portal vein. During this procedure the islets are susceptible to harmful innate reactions triggered in blood. Adenoviral vectors generating transgenic expression of human complement regulatory proteins were evaluated in pig islets and shown to confer protection against acute complement-mediated damage. Transplanted islets escaping this immediate destruction will be targets of a cellular immune response. Using a new mouse model of islet xenograft rejection, it was demonstrated that macrophages, effector cells in the rejection, were part of an MHC-restricted xenospecific immune response mediated by T cells. In a strain of knockout mice it was further shown that this process can proceed in the absence of an important signalling system, mediated by Toll-like receptors, between cells in innate and adaptive immunity. These findings illustrate some of the mechanistic differences compared to cellular islet allograft rejection which partly explain why immunosuppressive drugs used in clinical allotransplantation is not sufficient for preventing xenograft rejection. Porcine endogenous retroviruses (PERV) remain a safety concern in xenotransplantation. Characterization of PERV in pig islets indicated that virus expression is low in vitro but increases during the immediate time period following transplantation. This suggests that antiviral therapies administered at the time of transplantation could be used for preventing the risk of PERV transmission after xenotransplantation. Medicine xenotransplantation islets of Langerhans rejection diabetes porcine endogenous retroviruses quantitative RT-PCR cytokines animal models Medicin
448	Modulation of recovery and compensation after stroke Kirkland, Scott, University of Lethbridge. Faculty of Arts and Science January 2007 (has links) Stress has been shown to exacerbate cell death and cognitive deficits after ischemic injury in rodents, however, little is known of the effects of stress on motor recovery. The objective of this present thesis is to examine the effects of chronic stress on skilled motor recovery after devascularization lesion in rats. It was found that pre-lesion stress induced the most behavioural impairments, while post-lesion stress exacerbated infarct volume. The effects of chronic multiple stress on skilled motor recovery after lesion was also examined. Chronic multiple stress did not modulate skilled motor recovery nor did it have any influence on infarct volume. Additionally, stress had effect on edema after devascularization lesion. The present thesis suggests that the time of exposure to chronic stress in respect to the ischemic lesion, in addition to the type of stress, will differentially affect recovery and compensation in rats. / xii, 122 leaves : ill. ; 29 cm. Dissertations, Academic Cerebrovascular disease -- Animal models Cerebrovascular disease -- Research Cerebrovascular disease -- Treatment Motor ability -- Research Rats -- Effect of stress on Rats as laboratory animals Stress (Physiology) -- Research
449	Radiation-induced epigenome deregulation in the male germline Tamminga, Jan, University of Lethbridge. Faculty of Arts and Science January 2008 (has links) Approximately 45% of men will develop cancer during their lifetime; some of which will be of reproductive age (Canadian Cancer Society, 2008). Current advances in treatment regimens such as radiotherapy have significantly lowered cancer-related mortality rates; however, one major quality-of-life issue in cancer survivors is the ability to produce healthy offspring. Exposure to ionizing radiation (IR) leads to genomic instability in the germline, and further to transgeneration genome instability in unexposed offspring of preconceptionally exposed parents. The results presented in this thesis define, in part, the molecular consequences of direct and indirect irradiation for the male germline. Direct exposure results in a significant accumulation of DNA damage, altered levels of global DNA methylation and microRNAome dysregulation of testis tissue. Localized cranial irradiation results in a significant accumulation of unrepaired DNA lesions and loss of global DNA methylation in the rodent (rat) germline. Biological consequences of the changes observed are discussed. / xii, 121 leaves : ill. ; 29 cm. Dissertations, Academic Electronic dissertations Radiation carcinogenesis DNA -- Effect of radiation on Germ cells -- Effect of radiation on
450	Playful feedback and the developing brain Bell, Heather C, University of Lethbridge. Faculty of Arts and Science January 2008 (has links) The prefrontal cortex (PFC) has long been thought to be the seat of social behaviours in mammals. Lesions of the orbitofrontal cortex (OFC), a subregion of the PFC, are known to cause social deficits in humans. Interestingly, social deficits are also seen in rats with OFC lesions. Rats that are deprived of peer play during development exhibit behaviour similar to OFC-ablated animals. Another subregion of the PFC, the medial prefrontal cortex (mPFC) is interconnected with the OFC. The mPFC and OFC have been shown to be reciprocally responsive to a variety of inuences, in terms of dendritic morphology. It was hypothesized that social experiences are necessary for the proper development of the OFC, and that, because of the interconnectivity, the mPFC would also be sensitive to social experience. The social condition in which juvenile rats were raised was manipulated, and the OFC and mPFC were shown to be differentially responsive to specific aspects of social experience. It was already known that OFC lesions produce specific social deficits, but the contribution of the mPFC to the production of social behaviour was unknown. To investigate the contribution of the mPFC to the performance of social behaviour, animals were given mPFC lesions, and their social play behaviour was quantified. mPFC-ablated animals had altered play patterns that were distinct from those seen in the OFC-ablated animals. It was concluded that the OFC and mPFC are differentially responsive to social stimuli during development, and that the OFC and mPFC make discrete contributions to the production of social behaviour. The results were interpreted in an evolutionary context. / x, 93 leaves : ill. ; 29 cm. Dissertations, Academic Electronic dissertations Play behavior in animals -- Research

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