Bioactive substances with anti-neoplastic efficacy from marine invertebrates:Porifera and Coelenterata

An ever increasing demand for new lead compounds in the pharmaceutical industry has led scientists to search for natural bioactive products.Based on this extensive research,marine invertebrates now represent a rich source of novel substances with significant antineoplastic activities.As the current approach of synthesizing new and chemically modifying old drugs seems to have slowed down,and the identification of new anticancer drugs is not too promising,a new approach is clearly needed.The objective of this review is to present up-to-date data on these newer compounds.Based on the data summarized in this short review,it is clear that marine invertebrates represent an extremely important source of compounds with potential anti-cancer effects.Considering that we tested only a tiny number of Porifera and Coelenterata,the best is yet to come.

Tetraradial symmetry in early poriferans

Here is currently little consensus on the branching order and phyletic status of the oldest metazoan groups, but sponges are widely believed to be the earliestbranching living metazoans. Porifera are thought to have diverged before the emergence of developmental characters typical of Eumetazoa, such as well-defined symmetry; extant sponges show radial symmetry of indeterminate high order, or none, combined with polarisation along the axis. In contrast, other early-branching phyla include bilateral and tetraradial(Cnidaria) and biradial(Ctenophora) symmetry, or none(Placozoa). A variety of prismatic early fossil sponges had shown here where the shared symmetry has been overlooked, and also describe structural tetraradial symmetry in Cambrian sponges from South China. Based on this study, this symmetry is likely to have been a primitive feature of sponges, and that the earliest-known fossil sponges were highly organised, cellularly integrated individuals whose body form was under strict genetic control.

Reefs in the Early Paleozoic Taebaek Group,Korea:A Review

Various early Paleozoic （Cambrian Series 3-Middle Ordovician） reefs are found in the Taebaek Group, eastern Korea, located in the eastern margin of the Sino-Korean Block. They occur in every carbonate-dominant lithostratigraphic unit of the group, but their morphology and composition differ markedly. The Daegi Formation （middle Cambrian： Cambrian Series 3） contains siliceous sponge-Epiphyton reefs formed in a shallow subtidal environment, which is one of the earliest metazoan-bearing microbial reefs after the archaeocyath extinction. The Hwajeol Formation （upper Cambrian： Furongian） encloses sporadic dendrolites consisting of Angulocellularia, which developed in a relatively deep subtidal environment, representing a rare deeper water example. The onset of the Ordovician radiation resulted in the formation of microbialite-Archaeoscyphia-calathiid patch reefs in shallow subtidal deposits of the Lower Ordovician Dumugol Formation. Subsequent late Early Ordovician relative sea-level fall established extensive peritidal environments, forming microbial mats and stromatolites of the Lower-Middle Ordovician Makgol Formation. Ensuing Ordovician radiation resulted in one of the earliest metazoan skeletal reefs of the Middle Ordovician Duwibong Formation, constructed by stromatoporoid Cystostroma and bryozoan Nicholsonella, and developed around shallow shoals. These reefs reflect ongoing evolution and sea-level change during the early Paleozoic, and exemplify a rare glimpse of peri-Gondwanan records of reef evolution, which warrant detailed investigations and comparison with their counterparts in other regions.

房室海绵特征与分类

对房室海绵化石的出水管系统类型进行了总结，增添了１１种新类型，提出以出水管系统的类型作为房室海绵科级及亚目级的分类标准，并据此对房室海绵的分类进行了重大改革。

基于骨骼特征的2种深海六放海绵的描述

作者记述了两种深海海绵薄管海绵属一种(Chonelasma sp.)和绢网海绵科一种(Farreidae sp.),其中薄管海绵属为新记录属。由于采集时海绵已经死亡,骨针脱离海绵,只具有骨骼形态,缺乏骨针形态,所以两种海绵只能鉴定到属或科。薄管海绵属一种(Chonelasma sp.)隶属于真网海绵科(Euretidae),薄管海绵属(Chonelasma),由"蛟龙号"于2013年7月7日采集于南海3 551 m处。绢网海绵科一种Farreidae sp.隶属于绢网海绵科(Farreidae),由"科学号"于2014年4月18日采集于冲绳海槽1 190 m处。文中描述了两个种的外部形态特征和骨骼形态,丰富了中国六放海绵纲(Hexactinellida)的研究资料。

黄海一种寄居蟹海绵宽皮海绵的记述

本文从海绵的外部形态,骨针和骨骼等方面详细描述了中国黄海常见的一种寄居蟹海绵——宽皮海绵Suberites latus Lambe,1893。对比中国科学院海洋研究所标本馆馆藏标本,发现黄海报道的寄居蟹皮海绵Suberites domuncula(Olivi,1792)存在种名误定,应为宽皮海绵。因此,目前黄海共有2种寄居蟹海绵:无花果皮海绵Suberites ficus(Johnston,1842)和宽皮海绵。

A new species of the glass sponge genus Walteria(Hexactinellida:Lyssacinosida:Euplectellidae)from northwestern Pacific seamounts,providing a biogenic microhabitat in the deep sea

We report on a hexactinellid sponge new to science,Walteria demeterae sp.nov.,which was collected from the northwestern Pacific seamounts at depths of 1271–1703 m.Its tubular and basiphytous body,extensive lateral processes,numerous oval lateral oscula which are irregularly situated in the body wall,the presence of microscleres with oxyoidal,discoidal and onychoidal outer ends,and the absence of anchorate discohexasters,indicate it belongs to the genus Walteria of family Euplectellidae,which is also supported by molecular phylogenetic evidence from 18 S,28 S,16 S rRNA and cytochrome c oxidase subunit I(COI)gene sequences.The unique morphotype,which is structured by a thin and rigid framework of body wall and lateral processes consisting of diactins,characterizes it as a new species.Local aggregations of individuals of this new species coupled with their associated macrofauna in the Suda Seamount are reported,highlighting its functional significance in providing biogenic microhabitats in the deep sea.

Competing for Space: Factors That Lead to Sponge Overgrowth When Interacting with Octocoral

The overgrowth of octocorals by sponges is generally disadvantageous for the octocorals. When the growth of octocoral populations increases the reefs’ structural complexity, more substrate space becomes available for epibionts to grow. One of these epibionts is the sponge Desmapsamma anchorata, known to grow exponentially faster than other sponges, and for its ability to overwhelm the substrate over which it grows. Our objective in this study is to determine if the overgrowth of branching octocorals by varying sponges is defined only by species-specific interactions, or if some physical attributes make this octocoral more susceptible to being overgrown than others. To determine this, on a reef south of Carrie Bow Cay, Belize, we monitored the attachment of various demosponges to branching octocorals in a series of experiments to assess the response effect of the interactions and properties leading to attachment and subsequent sponge overgrowth on branching octocorals. Substrate effects, species-specific reactions, and time of exposure were considered. Additionally, following successful-attachment, preliminary growth rates of two sponge species epizoic on two octocoral species were monitored. Differences in the observed interaction between species and treatments were analyzed with a multinomial response model to isolate a species-specific effect from other interacting effects of the properties tested. Results indicate that time of exposure of a sponge in direct contact with the octocoral fragment significantly affects the outcome of the interaction;secondly, physical properties and species-specific interactions also influence the attachment. Following the successful attachment to an octocoral, the growth of the sponge varies as a function of the sponge’s differential growth rate and the substrate species over which it grows. In the context of species successions, understanding interactions between coralreef organisms is important as these interactions explain species composition and diversity, and provide a basis for the prediction of future changes in complex reef communities.

Cultivable yeasts associated with demosponges from Puerto Rico

Sponges are known for their symbiotic associations with bacteria and to a lesser extent with fungi.It has been argued that the association between fungi and sponges is not truly symbiotic,and fungal presence is incidental.Nevertheless,a vertically transmitted endosymbiotic yeast has been observed by transmission electron microscopy in sponges of the genus Chondrilla.Our work was focused on documenting the presence of yeasts associated with marine sponges from Puerto Rico.Sponge samples were taken from healthy mature colonies of Ircinia strobilina,Tedania ignis,and Chondrilla caribensis.A total of 36 yeast morphotypes were isolated and analysed by sequencing the nuclear ribosomal ITS region.Saccharomyces cerevisiae,was isolated from all the samples,comprising the first report of this yeast as a common inhabitant in marine sponges.Other yeasts isolated include the halophilic black yeast,Hortaea werneckii,and an unidentified species belongs to the Sporidiobolales(Basidiomycota).The high isolation frequency of S.cerevisiae from our sponge samples supports the possibility that Saccharomyces cerevisiae as an active member of the sponges’microbial community.

Abiotic Sponge Ecology Conditions,Limski Kanal and Northern Adriatic Sea,Croatia

The Limski kanal, a semi-closed inlet (channel-like bay) located on the western coast of Istria (Croatia), is an extraordinary sponge habitat. Research on the marine ecosystem has been conducted there for more than 100 years. Today, 42 valid Porifera species are described. 139 species are listed for the area around Rovinj and 159 species for the northern Adriatic Sea. While several scientists described the sponge fauna, information on the abiotic situation or an explanation for the diversity differences is missing. This study interprets physicochemical and ecological parameters including depth profiles (temperature, salinity, pH-value, oxygen, water current velocity, photosynthetically active radiation [PAR], water transparency and nutrients). Their variances are linked with the distribution patterns of the prevailing sponge fauna. The channel is characterised as predominantly marine habitat. Although a shallow sediment barrier and a headland reduce the impact of the northern Adriatic Sea, differences between the channel and the open sea seem to be limited. Compared to the more homogenous water body of the Adriatic sampling locations, the channel shows variations and gradients of ecological parameters between different locations (e.g., due to freshwater influx: nutrients, temperature, oxygen content, salinity and water current velocity) – this offering habitat diversity. The sponge fauna changes along those ecological gradients. It is dominated by the photophilic species Aplysina aerophoba and Chondrilla nucula, but sciaphilic species such as Dysidea avara, Axinella polypoides and Aplysina cavernicola can be found, too. Some specialised species (e.g., Geodia cydonium, Tethya aurantium) even populate the muddy bottom of the channel.

南海钙质海绵一新记录种——白银拟族海绵Uteopsis argentea(Poléjaeff,1883)

本研究发现了采集于南海北部湾和琼州海峡的一个海绵新记录种,白银拟族海绵。该种是丛生薄管状,具有很多分叉的树枝状结构,同一根独立的管粗细均匀。标本在酒精中的颜色为淡褐色,出水口处颜色稍浅。海绵坚硬且脆度大,一层大二辐骨针在海绵表面构成致密的骨架结构,有少量骨针的辐会伸出表面。骨针分为三类:大二辐骨针和小二辐骨针;成对辐与无对生辐长度及形态差异非常明显的四种羽状三辐骨针;基辐与顶辐差异不明显且均与三辐骨针的辐相似的四辐骨针,这三种骨针按照固定的方式组合在一起构成骨架结构。水沟系是双沟型。领细胞室没有关节结构。

云南寒武纪早期澄江生物群中原始海绵科似斜纹海绵属新种

本文报道澄江生物群似斜纹海绵属Paradiagoniella的两个新种:橄榄形似斜纹海绵P.oliviformis sp. nov.和锥形似斜纹海绵P.conica sp. nov.。两个新种具有似斜纹海绵属的基本特征:体壁薄;由排列不规则、分级的十字骨针为基底构成骨骼;除十字骨针外,还穿插排列有五射针、六射针、弯弓形和针形双尖单轴针等。然而与模式种不同,两个新种十字骨针分级不明显;同时,两个新种在外形、骨针组成、最大十字骨针射长比等方面,与本属的其他种都存在明显差异。新材料的发现增加了寒武纪早期原始海绵物种多样性,为研究海绵动物早期起源演化提供了新信息。

寒武纪早期澄江生物群小细丝海绵属新材料

文章描述了云南寒武纪早期澄江生物群小细丝海绵属一新种螺旋小细丝海绵(Leptomitella spiralis sp. nov.)。新种具有横向骨针束围绕海绵体呈螺旋状排列的典型特征,明显区别于属内其他种;此外,在外部形态和骨针类型上与属内其他种也存在较大差异。新种的发现增加了Leptomitella种间形态结构的多样性,也为海绵动物的早期演化及寒武纪海绵动物辐射演化研究提供新的化石资料。

澄江生物群具重要演化意义的原始单轴针海绵新属种——Ovulispongia multa gen.et sp.nov.

本文描述了云南寒武纪早期澄江生物群中原始单轴针海绵化石一新属种——群体小卵海绵Ovulispongia multa gen. et sp. nov.。群体小卵海绵为小型薄壁海绵,整体呈卵形,骨骼双层,由四个方向的单轴骨针穿插成网状,左倾方向和右倾方向骨针与水平骨针和纵向骨针斜交呈45度角;骨针之间无叠接;海绵体无口须和根须。群体小卵海绵在外部形态和骨架类型上与其他的原始单轴针海绵存在明显差异,其半紧密型骨架处于无规则排列的鬃毛海绵骨架和规则排列的细丝海绵骨架之间。另外新材料显示在海底固着取食的生态环境中,新属种用高密度的个体分布来获得竞争优势。群体小卵海绵独特的过渡形态的骨架结构和高密度生态分布为研究古生代原始单轴针海绵的骨架演化与生态空间扩张之间的关系提供了线索,也为研究寒武纪早期海绵动物的起源和多样化提供新的化石材料。

云南寒武纪早期澄江生物群中原始海绵新种:囊形似斜纹海绵Paradiagoniella marsupiata sp.nov.

报道澄江生物群似斜纹海绵属Paradiagoniella的新种:囊形似斜纹海绵P.marsupiatasp.nov.,以及部分离散保存的十字骨针、六射针.新种具有似斜纹海绵属的基本特征:体壁薄;由排列不规则、分级的十字骨针为基底构成骨骼;除十字骨针外,还穿插排列有五射针、弯弓形和针形双尖单轴针等.然而与模式种不同,新种十字骨针分级不明显,且与本属已知种P.magna和P.xiaolantianensis在外形、骨针组成、最大十字骨针射长比等方面,都存在明显差异.新材料的发现增加了寒武纪早期原始海绵物种多样性,为研究海绵动物早期起源演化提供了新信息.

海绵动物抗肿瘤活性物质研究进展

海洋生物是抗肿瘤活性物质的重要来源。海绵动物是海洋中除珊瑚以外的第2大生物资源。近十几年来,已从不同的海绵体内分离鉴定了许多结构新颖的高活性抗肿瘤物质,显示出诱人的研究开发前景。现综述正在临床试验阶段的具有抗肿瘤活性的海绵动物提取物及其合成衍生物,以及其来源种属、化学成分及其药理作用的研究进展。

Origin of the neuro-sensory system: new and expected insights from sponges

The capacity of all cells to respond to stimuli implies the conduction of information at least over short distances.In multicellular organisms,more complex systems of integration and coordination of activities are necessary.In most animals,the processing of information is performed by a nervous system.Among the most basal taxa,sponges are nerveless so that it is traditionally assumed that the integrated neuro-sensory system originated only once in Eumetazoa,a hypothesis not in agreement with some recent phylogenomic studies.The aim of this review is to show that recent data on sponges might provide clues for understanding the origin of this complex system.First,sponges are able to react to external stimuli,and some of them display spontaneous movement activities.These coordinated behaviors involve nervous system-like mechanisms,such as action potentials and/or neurotransmitters.Second,genomic analyses show that sponges possess genes orthologous to those involved in the patterning or function-ing of the neuro-sensory system in Eumetazoa.Finally,some of these genes are expressed in specific cells(flask cells,choanocytes).Together with ultrastructural data,this gives rise to challenging hypotheses concerning cell types that might play neuro-sensory-like roles in sponges.