金佛拟小鲵幼体皮肤的显微结构观察

采用光镜和扫描电镜对金佛拟小鲵(Pseudohynobius jinfo)幼体皮肤进行组织学和形态学观察。金佛拟小鲵幼体皮肤由表皮和真皮构成。不同部位皮肤厚度不同,头部背侧皮肤最薄,其厚度为(45.99±12.77)μm,尾部腹侧的皮肤最厚,其厚度为(95.21±42.72)μm。表皮角质层仅躯干背部和尾部明显,由仍具有一定生理活性的复层扁平上皮细胞构成。皮肤腺体包括黏液腺和颗粒腺。黏液腺广泛分布于身体各个部位的皮肤,颗粒腺呈区域性分布,仅见躯干部和尾部皮肤,其体积大于黏液腺。毛细血管多分布于真皮疏松层腺体周围,与表皮层紧密接触并凸向表皮。色素细胞主要分布于表皮和疏松层的交界处,呈多细胞聚集的状态,形成厚度不一的色素层。     

大凉疣螈皮肤的组织学观察

对大凉疣螈Tylototriton taliangensis的皮肤进行了显微观察,结果表明,其体表不同部位皮肤的厚度存在一定差异,但基本结构相同.皮肤表面粗糙,表皮角质化程度较高.表皮与真皮相接处毛细血管丰富,毛细血管常向表皮突起,突起处表皮细胞层数减少,背部毛细血管密度大于腹部.皮肤中含有丰富的色素细胞,主要分布在真皮疏松层浅表.真皮中有丰富的皮肤腺:粘液腺体积较小,分布遍及全身,腹侧密度较大;颗粒腺体积较粘液腺大,主要分布在耳区、体背两侧及尾背侧,形成耳后腺、背嵴、尾部颗粒腺区等特殊结构.     

似鲇高原鳅皮肤与鳍的组织学观察

采用石蜡切片技术及H.E和AB-PAS染色方法,对似鲇高原鳅(Triplophysa siluroides)头部、腹部、背部、侧线部和尾部皮肤结构及胸鳍、腹鳍、背鳍、臀鳍和尾鳍的组织结构进行观察。各部位皮肤均由表皮和真皮构成,真皮包括疏松层和致密层,不同部位皮肤厚度不同。表皮层腹部最厚,为(84.62±10.82)μm,侧线部最薄,为(14.97±3.95)μm,各部位表皮厚度差异显著。表皮层分布着黏液细胞、棒状细胞及味蕾。疏松层头部最厚,为(282.71±70.56)μm,尾部最薄,为(29.07±4.88)μm,该层分布有黑色素细胞、空泡状细胞和颗粒腺,而黏液腺分布于致密层。各部位的鳍均由表皮层、胶原纤维层、胶原下层及鳍条构成,表皮层与皮肤表皮层组成相似,鳍条是矿化的结缔组织。     

高原林蛙不同部位皮肤组织结构比较

高原林蛙(Rana kukunoris)是青藏高原特有的两栖类动物,已适应青藏高原高海拔低温、缺氧、强紫外线的自然环境。采用石蜡切片技术和H.E染色及扫描电镜技术对青藏高原东北部地区高原林蛙头部、背部、腹部、侧部皮肤结构进行观察。高原林蛙各部位皮肤均由表皮和真皮组成,表皮是角质化的复层扁平上皮,不同部位表皮层厚度接近,真皮层厚度不同,头部真皮层的厚度最厚,为(197.86±29.73)μm,侧部最薄,为(55.33±5.22)μm。高原林蛙真皮疏松层中分布有颗粒腺、黏液腺和嗜酸腺。颗粒腺主要分布于头背部;黏液腺在头部数目最多,侧部最少;嗜酸腺在机体各部位均匀分布。高原林蛙头部、背部、侧部色素细胞含量丰富,腹部色素细胞含量较少。毛细血管分布于真皮疏松层腺体周围,表皮中也有少量分布。这些结构特征可能是高原林蛙对青藏高原环境的适应策略。     

红瘰疣螈皮肤的显微结构观察

对我国Ⅱ级重点保护野生动物红瘰疣螈(Tylototriton shanjing)成体的皮肤结构进行了显微观察。观察结果表明,其皮肤厚薄、微血管、色素分布,以及腺体的分布和大小等方面在身体的不同部位存在差异:头和背部的皮肤厚于腹部;黑色素细胞多分布于真皮浅层,以腹部及背侧无瘰粒处多见;真皮层富含黏液腺和颗粒腺,但分布不均匀;头嵴棱部及背部瘰粒下方颗粒腺的数量多、体积大,并充满分泌物;表皮下腺体外突,其表皮细胞层数减少,形成分泌物有效通道。同时,将红瘰疣螈皮肤与其他两栖类相比可知,其以上皮肤结构特征均体现了红瘰疣螈对山区阴湿环境中陆栖生活的重要适应。     

版纳鱼螈侧线系统的结构

版纳鱼螈(Ichthyophis bannanica)是我国无足目的仅有代表,应用光镜和扫描电镜对版纳鱼螈的侧线系统进行形态学和组织学观察的研究表明:版纳鱼螈幼体表皮中的侧线器官有接受机械刺激的神经丘和电接受壶腹器官两种,神经丘包括表面神经丘和陷神经丘。侧线分布主要包括:头部的鼻侧线、眶上线、眶下线、眶后线、口侧线、下颌线、咽侧线、鳃孔上线和身体上的背侧线。侧线器官的分布密度、大小和凹陷深度明显与周围表皮的厚度和不同部位有关。幼体的侧线器官退化与鳃孔的退化同步,亚成体以后不保留侧线系统。版纳鱼螈的侧线分布和器官结构与其它无足类的大致相似,仅在眶上线和眶下线的器官分布上存在微小的差别     

爪鲵皮肤的显微结构和呼吸作用

本文报道了爪鲵皮肤和腺体的显微结构特点及腺体和毛细血管的分布特点。其表皮较薄 ,由 2～ 7层细胞构成 ,真皮厚度与腺体大小有关 ,致密层在腹部较厚而在其他部位稀少。爪鲵皮肤不仅具有粘液腺和颗粒腺 ,而且还出现了一种特殊的类似脂肪细胞构成的腺体 ,该腺体只分布于体背部与体腹部的交界处。颗粒腺集中在躯体和尾的背部 ,粘液腺主要集中分布于腹部。毛细血管在皮肤中极其丰富 ,背部分布密度明显大于腹部。毛细血管分布于表皮下 ,并常向表皮突起 ,突起处表皮细胞层数减少 ,形成皮肤的血气呼吸屏障 ,以保证皮肤有效的呼吸作用的完成。     

爪鲵皮肤的显微结构和呼吸作用(图版Ⅵ)

本文报道了爪鲵皮肤和腺体的显微结构特点及腺体和毛细血管的分布特点。其表皮较薄,由2～7层细胞构成,真皮厚度与腺体大小有关,致密层在腹部较厚而在其他部位稀少。爪鲵皮肤不仅具有粘液腺和颗粒腺,而且还出现了一种特殊的类似脂肪细胞构成的腺体,该腺体只分布于体背部与体腹部的交界处。颗粒腺集中在躯体和尾的背部,粘液腺主要集中分布于腹部。毛细血管在皮肤中极其丰富,背部分布密度明显大于腹部。毛细血管分布于表皮下,并常向表皮突起,突起处表皮细胞层数减少,形成皮肤的血气呼吸屏障,以保证皮肤有效的呼吸作用的完成。     

隆肛蛙皮肤及其腺体的显微结构特征

观察了隆肛蛙(Paa quadranus)皮肤及其腺体的显微结构特点,主要对成体、幼蛙和蝌蚪泄殖腔上方皮肤腺进行了描述和比较。结果表明,隆肛蛙的表皮和真皮内均分布有微血管及黑色素细胞;皮肤腺为泡状腺,腺泡位于真皮浅层的疏松层内,属顶质分泌的粘液腺;雄性成体泄殖腔上方皮肤腺是隆肛蛙的特有结构,属于雄性的第二性征,本文建议称其为肛上腺(supra-anal gland)。文中对肛上腺及其机能、表皮中微血管与皮肤呼吸、黑色素细胞与体温调节等之间的关系进行了讨论。     

西藏蟾蜍皮肤的组织学观察

为了解西藏蟾蜍Bufo tibetanus与其高海拔生活环境的适应性,采用常规石蜡切片和苏木精-伊红染色方法,对西藏蟾蜍雌雄性头部、躯干和四肢的背、腹侧皮肤显微结构进行了观察、测量和比较。结果显示皮肤的基本结构与已报道的无尾两栖类相似,由表皮和真皮组成。表皮较薄,由5~8层细胞构成,由外到内分为角质层、中间层和基底层。真皮较厚,分为疏松层和致密层。各部位大多表现为背侧皮肤厚度大于腹侧,相应部位大多为雌性大于雄性。皮肤厚度的变化在一定程度上与西藏蟾蜍运动方式和繁殖期间抱对行为相适应。皮肤腺体分粘液腺和颗粒腺2种。色素细胞主要分布在疏松层近表皮处,但在表皮和腺体周围也可见色素细胞的不连续分布。皮肤中毛细血管极其丰富,不仅在表皮下几乎成连续分布,而且在腺体周围也有密集分布。西藏蟾蜍皮肤结构明显表现出与生活环境中强紫外辐射和缺氧环境相适应的特点。     

版纳鱼螈牙齿的形态及发育

对我国特有的濒危珍稀两栖动物版纳鱼螈(Ichthyophis bannanicus)牙齿的形态及其发育进行了研究.结果表明,版纳鱼螈牙齿发生于口腔上皮的底层细胞.一颗完整的牙齿由齿冠、纤维环和肉茎三部分构成,为同型钉状双尖齿.牙齿在上、下颌均排列成两排,每个齿位着生1～2颗牙齿.齿位数和齿数通常上颌齿多于下颌齿,上颌舌侧齿多于唇侧齿,下颌唇侧齿多于舌侧齿.随着个体的生长发育,齿位数和齿数会在颌后部增加.亚成体和成体有大量换齿或脱齿现象.牙齿从着生稀疏、功能齿和替换齿夹杂着生趋向功能齿密集整齐着生.同时,将此研究结果与其他蚓螈类进行了比较和分析.     

Xanthophore migration from the dermis to the epidermis and dermal remodeling during Salamandra salamandra salamandra (L.) larval development

During larval development of Salamandra salamandra salamandra chromatophores organize to form the definitive pigment pattern constituted by a black background with yellow patches that are characterized by epidermal xanthophores and dermal iridophores. Simultaneously the dermis undergoes remodeling from the larval stage to that typical of the adult. In the present study we ultrastucturally and immunocytochemically examined skin fragments of S. s. salamandra larvae and juveniles in order to investigate the modalities of xanthophore migration and differentiation in the context of dermal remodeling from the larval to adult stage. Semithin and thin sections showed that the dermis in newly born larvae consists of a compact connective tissue (basement lamella), to which fibroblasts and xanthophores adhere, and of a loose deep collagen layer. As larval development proceeds, fibroblasts and xanthophores invade the basement lamella, skin glands develop and the adult dermis forms. At metamorphosis, xanthophores reach the epidermis crossing through the basal lamina. We examined immunocytochemically the expression of signal molecules, such as fibronectin, vitronectin, beta1-integrin, chondroitin sulfate, E-cadherin, N-cadherin and plasminogen activator, which are known to be involved in regulating morphogenetic events. Their role in dermal remodeling and in pigment pattern formation is discussed.     

The shift from aquatic to terrestrial phenotype in Lissotriton italicus: larval and adult remodelling of the skin

Morphology and ultrastructure of the skin of Lissotriton italicus (previously named Triturus italicus) have been described in different phases of its biological cycle: larval stage, metamorphic stage and adult stage with emphasis on modifications occurring between aquatic and terrestrial adults. In the present study, light microscopy and both scanning and transmission electron microscopy were employed to analyze the histological and cytological remodelling that occurs in the skin of L. italicus during metamorphosis. The ultrastructure of the larval epidermis is arranged into three principal layers comprising an external layer of pavement cells, a basal layer and 1-3 intermediate layers consisting of Leydig cells along with accessory cells and mitochondria-rich cells. By the onset of metamorphosis, morphological changes of the skin include stratification and flattening of epidermal layers and disappearance of typical larval cells. In both aquatic and terrestrial adult phases the thin, cornified epidermis shows the same general arrangement as found in other vertebrates with an external stratum corneum and a variable number of intermediate cell layers. During the terrestrial adult phase, the skin is characterized by the presence of numerous tubercles; moreover, the lower epithelium is thicker than in the aquatic phase. Ultrastructural analysis revealed no substantial differences in the cellular composition of the skin between aquatic and terrestrial phases.     

Action of polyvalent cations on sodium transport across skin of larval and adult Rana catesbeiana

The actions of alkaline earth (AE) and transition element (TE) cations on Na+ transport across skin of larval and adult Rana catesbeiana were compared. Bathed on the outside by Ca+2-free Ringer's, both larval and adult skins maintained a stable short-circuit current (3-4 mu Amps cm-2 for larval skin and 20-30 mu Amps cm-2 for adult skin). Addition of Ca+2 to the external bath reduced the SCC; maximal inhibition was about 36% for larval skin and 22% for adult skin. Other AE divalent cations were also inhibitory. The order of effectiveness was: Ba+2 = Ca+2 greater than Sr+2 greater than Mg+2 for larval skin and Ba+2 greater than Ca+2 = Mg+2 for adult skin. Sodium influx was markedly elevated when Ca+2 was removed from the external medium. Current-voltage analysis indicated that Ca+2 increases the resistance of the active pathway without affecting the shunt resistance or the electromotive force of Na+ transport (ENa) in larval and adult skins. The SCC across adult skin was stimulated by TE cations (Co+2, Cd+2, La+3). These ions were inhibitory on larval skin. The transition in the response occurred at stage XXI. The inhibitory effect of TE on larvel skin resembles that seen in response to AE cations and we postulate a common mechanism. Since larval skin lacks the selective Na+ channels found in apical membranes of adult skin, we infer that the mechanism of inhibition by AE cations is not on these channels. A more general phenomenon such as change in surface charge at the apical membrane seems more reasonable.(ABSTRACT TRUNCATED AT 250 WORDS)     

首次发现版纳鱼螈冬眠洞穴

2012年12月至2013年2月对版纳鱼螈(Ichthyophis bannanicus)的冬眠进行初步研究,发现5条版纳鱼螈(包括成体和亚成体)在4个冬眠洞穴内冬眠,其越冬地选择在距离水源不远的溪流岸边或者平缓的山坡,能够自行打洞或者利用其他动物废弃的洞穴进行冬眠。版纳鱼螈主要是以单栖的方式冬眠,身体呈S形或者圆形。     

Regional specificity of anuran larval skin during metamorphosis: dermal specificity in development and histolysis of recombined skin grafts

Summary Skins from back and tail were dissected from tadpoles of Rana japonica prior to resorption of the tail and separated into epidermis and dermis by treatment with neutral protease. Homotypically and heterotypically recombined skins were constructed from the separated epidermis and dermis and transplanted into the tail of the original tadpole. Skin grafts using dermis from tail region degenerated simultaneously with resorption of the tail. However, skin grafts containing dermis from back region survived on the posterior part of the juvenile frog beyond metamorphosis. Furthermore, all epidermis underlaid with dermis from back region formed secretory glands and became flattened epithelia characteristic of adult back skin, regardless of region from which the epidermis came. Even when epidermis isolated from tail skin was cultured inside a back skin graft, the tail epidermis survived forming an epithelial cyst and developed secretory glands. These results suggest that regional specificities of anuran larval skin, i.e., development of back skin and even histolysis of tail skin, are determined by regionally specific dermis. The results also suggest that some of epidermal cells of tail skin are able to differentiate into epithelial cells similar to back skin of the adult under the influence of back dermis.     

Molecular identification of the skin transformation center of anuran larval skin using genes of Rana adult keratin (RAK) and SPARC as probes

Anuran larval skin undergoes a process of metamorphosis into pre-adult and adult skin. Basal skein, larval basal and adult basal cells are basement membrane-attaching cells in the larval, pre-adult and adult epidermis, respectively, and are identified as cells expressing genes of RLK (Rana larval keratin), both RLK and RAK (Rana adult keratin), and RAK. Larval to pre-adult skin conversion takes place in the histological entity called the skin transformation center (STC). The present study performed a cDNA subtractive gene screening on cDNA of the larval and the pre-adult skin, and cloned the secreted protein acidic and rich in cysteine (SPARC) gene as an upregulated gene in the larva to pre-adult skin conversion. RAK gene-positive basal skein cells and fibroblasts in and around the STC were weakly and strongly sparc-positive, respectively. Using sparc and rak, we redefined the STC and visualized it on a histological section as an approximately 150 microm-long region that contained about 20 rak-negative and weakly sparc-positive basal cells. Intense sparc expression was observed in basal skein cells, but not in larval basal cells, suggesting that SPARC acts as a suppressor of rak during epidermal differentiation. This suggestion was tested by investigating the effect of SPARC on cultured larval basal cells. We observed that SPARC suppressed the expression of rak, but not rlk.     

Development of integument and cutaneous glands in larval,juvenile and adult toads (Rhinella granulosa): a morphological and morphometric study

In this study, the development of integument and cutaneous glands in the toad Rhinella granulosa (Bufonidae) at different larval stages and in postmetamorphic and adult forms was examined. The analyses were conducted using histological, ultrastructural and morphometric methods. The results showed that cellular aggregations of precursor epidermal glands start to appear in stage 31 of (Herpetologica, 16, 1960 and 183) and then proliferate and invade the dermis. After stage 41, granular and mucous glands are very similar to those found in adults. The granular glands are syncytial and are surrounded by a distinct layer of myoepithelial cells. In the region of parotoid macroglands, the granular glands accumulate and their alveoli progressively increase until they reach adult size. An analysis by scanning electron microscopy showed the inner distribution of the syncytial nuclei and the myoepithelial cells. The morphological changes observed in the integument of tadpoles are associated with the gradual adaptation to terrestrial environments by preparing the individual for future chemical defence against predators and micro‐organisms.     

The anatomy of the circumgenital scent gland of Saguinus fuscicollis (Callitrichidae, Primates)

In the adult male Saguinus fuscicollis , the scrotal skin and the area above the root of the penis are raised in a sharply defined cushion, which extends cranially into a rectangular suprapubic pad. The circumgenital area of the adult female resembles that of the male, except that the suprapubic pad is relatively and absolutely larger. A complex glandular organ, composed of holocrine and apocrine glands, is located beneath the epidermis of the circumgenital skin. In males, specialized holocrine glands associated with hair follicles predominate. They form a layer, 2-3 mm deep beneath the epidermis. These holocrine glands have a complex alveolar structure and possess numerously branched excretory ducts. Each group of glands empties into a common duct which enters the hair follicle. In males, the apocrine glands are located predominantly at the periphery of the glandular pad and between the scrotal and perineal areas. The excretory ducts of most apocrine glands empty on to the skin surface in close spatial association with hair follicles. However, independent openings were also observed. In females, the specialized holocrine glands resemble those of males but are more frequently interspersed with apocrine glands. The apocrine glands are larger and much more numerous than in males, especially in the region of the labia majora. Gonadectomy of an adult male and female resulted in a reduction in the size of the holocrine glands but had much less effect on the apocrine glands of the scent organ. In addition, the sexual dimorphism in gland histology was retained years after castration.     

Influence of thyroid hormones on neuronal death and differentiation in larval Rana pipiens.

The sphingid moth, Manduca sexta, typically passes through five larval instars, a pupal, and an adult stage. The larval labial glands secrete silk in the first instar and a viscous lubricant in the fifth. During metamorphosis the glands develop into salivary organs which produce an invertase-rich secretion. In normal development, the uniform population of cells in the duct of the larval gland transforms into the four sequentially arranged regions of secretory and conductive cells of the adult gland. In order to determine when competence to form the adult gland is established, fragments of labial gland ducts from first through fifth instar larvae were implanted into pupae. These gland fragments underwent metamorphosis with their hosts, passing through the same developmental phases. Glands from as early as the first instar were competent to form histologically and functionally normal adult regions. In later instars, transplants of measured fragments demonstrated that larval cells were programmed in situ to develop into the four adult cell types.