1 Phylum Porifera -- 5000 -10000 spp. -- mostly marine some fwnone terrestrial -- 3 classes, most important distinction are skeletal characteristics

2 I. General Ecological CharacteristicsPhylum Porifera I. General Ecological Characteristics II. Body Plan III. Metazoan Characteristics A. Cell types B. Allorecognition C. Reproduction and Embryology D. Other metazoan homologies. IV. Sponge Phylogeny

3 I. General Ecological CharacteristicsSponges are: Sessile, benthic Filter feeders Competitors for space Fed upon by specialist predators Grow in many forms, solitary, colonial, branching, as thin sheets over substrates From few cm to over 1 m in size Estimated in some cases to be several hundred years old

4 II. General Characteristics of the Porifera Body PlanThe classification of sponges is based on skeletal morphology

5 images.slideplayer.com

6 II. General Characteristics of the Poriferan Body Plan3 major types of body construction Asconoid Syconoid Leuconoid (this has little to do with the classification of sponges, which is based on skeletal morphology)

7 Asconoid Sponge Syconoid Sponge

8 Leuconoid ArrangementOsculum Ostia Leuconoid Arrangement These are the largest, and most sponges have this type of construction

9

10 Sponge Feeding Movie Simulations of Sponge Feeding

11 Carnivorous sponges from deep water and shallow cavesEvolution of macrophagy from a microphagous, filter feeding life style

12 II. Other Characteristics of the Poriferan Body PlanNo true muscular system Lacking sensory organs, nervous system Often amorphous and asymmetrical, no anterior, posterior, oral surfaces No true tissues All physiological functions carried out \ at the cellular level Begs the question: Colony of protista or a simple metazoan (i.e. an integrated animal ?)

13 III. Metazoan-like Characteristics of Sponges A. 5 different principal cell types (20 total) Osculum Pinacocyte Choanocyte spongocoel Refer to Archeocytes here….they are STEM Cells Porocyte Sclerocytes Archeocyte

14 Stem cells – have the capacity of self-replication and to give rise to more than one type of mature daughter cells Image courtesy of BioMEDIA ASSOCIATES Archeocytes – in sponge embryos are considered totipotent stem cells that can give rise to an entire organism - in adults they produce a few cell types (sclerocytes, germ cells, etc.) but not an entire organism; they are considered pluripotent Muller (2006) Seminars in Cell and Developmental Biology #17:

15 III. Metazoan-like Characteristics of SpongesB. Complex reproduction

16 III. Metazoan-like Characteristics of SpongesUnique but complex embryonic development, with a hollow blastula stage but does not form a gastrula Carried in the plankton Settlement & metamorphosis sperm Parenchymula or Amphiblastula Egg Juvenile Adult Sexual reproduction involves fertilization, release of a planktonic larva, and its eventual settlement and metamorphosis on the bottom.

17 III. Metazoan-like Characteristics of SpongesC. Other sponge metazoan homologies: Epithelium -- pinacoderm: epithelial-like layer homologous to animal epithelia with collagenous sublayer ( ...but basal lamina only in Homoscleromorphs)… -- septate junctions (desmosomes) albeit primitive and small (only Calcarea has full “animal-like” desmosomes) -- extracellular matrix -- spongin is collagen-like molecule -- ubiquitin protein similarity (tag other proteins for proteolysis) Homeostasis!!

18 Integrative and Comparative Biology Advance Access published online on June 22, 2009Integrative and Comparative Biology, doi: /icb/icp038 Epithelia and integration in sponges Sally P. Leys1,*, Scott A. Nichols{dagger} and Emily D. M. Adams* *Department of Biological Sciences, University of Alberta, Edmonton, AB, Canada T6G 2E9; {dagger}Department of Molecular and Cell Biology, University of California, Berkeley, CA 94720, USA Correspondence: 1 An epithelium is important for integrity, homeostasis, communication and co-ordination, and its development must have been a fundamental step in the evolution of modern metazoan body plans. Sponges are metazoans that are often said to lack a true epithelium. We assess the properties of epithelia, and review the history of studies on sponge epithelia, focusing on their homology to bilaterian epithelia, their ultrastructure, and on their ability to seal. Electron micrographs show that adherens-type junctions are present in sponges but they can appear much slighter than equivalent junctions in other metazoans. Fine septae are seen in junctions of all sponge groups, but distinct septate junctions are only known from Calcarea. Similarly, all sponges can have collagenous sheets underlying their epithelia, but only homoscleromorphs are established to have a distinct basal lamina. The presence of most, but not all, gene families known to be involved in epithelial development and function also suggests that sponge epithelia function like, and are homologous to, bilaterian epithelia. However, physiological evidence that sponge epithelia regulate their internal environment is so far lacking. Given that up to six differentiated epithelia can be recognized in sponges, distinct physiological roles are expected. Recognition that sponges have epithelia challenges the perception that sponges are only loose associations of cells, and helps to relate the biology and physiology of the body plan of the adult sponge to the biology of other metazoans.

19 III. Metazoan-like Characteristics of SpongesC. Other sponge metazoan homologies: Regulation of Development -- True Hox genes are not found, but many homologous developmental transcription factors are conserved -- Most of the developmental signaling pathways (Wnt, Notch) and they are expressed along the same embryonic “axis” in sponges (and Cnidaria). Many of these signaling pathways and transcription factors have not been found in Protists. From Adamaska et al., 2011

20 III. Metazoan-like Characteristics of Sponges D. Non-self recognition“Allorecognition” Some sponges form new individuals hours after their cells are separated from one another. If species are combined, the cells segregate with their own

21 “Metazoan-like Characteristics of Sponges”Allorecognition Histoincompatability Immune response: antagonism toward foreign substances antagonism must be specific toward that substance future responses should be altered by the first response The sponge immune response is mediated by molecules which have been found to control histo-recognition in deuterostomes including Immunoglobulin-like domains and citokines Cytokines (Greek cyto-, cell; and -kinos, movement) are any of a number of substances that are secreted by specific cells of the immune system which carry signals locally between cells, and thus have an effect on other cells.[1] They are a category of signaling molecules that are used extensively in cellular communication. They are proteins, peptides, or glycoproteins. The term cytokine encompasses a large and diverse family of polypeptide regulators that are produced widely throughout the body by cells of diverse embryological origin.[2]

22 Summary -- Sponges lack complexity, but their body plan is ecologically and evolutionarily successful --They should be considered metazoans since they have fundamental characteristics of multicellular animals; --They are derived from flagellated protists but may be a early and now distant branch of the metazoa; animals are monophyletic

23 Phylum Placozoa -- 2-3 mm, 25 um- thick, resembling a large ameba-- Lacks anterior posterior polarity -- Asexual reproduction is prevalent --The most primitive animal? Trichoplax adhaerens

24 Phylum Placozoa Dorsal cilium epithelium-like layer Fiber synctiumthick glandular layer Flagellated cells Intercellular junctions - Feed ventrally by absorption of digested material - Lack organs but tissue-like outer walls (no basement membrane) - A bit more than 2000 cells - Only 4 different cell types (20 in sponges; > 220 in mammals) - Smallest genome of all animals

25 Three competing ScenariosEarliest view of them as the basal metazoan Special cellular junctions consisting of two opposing dense plaques (desmosomes) not found in most sponges 16S rRNA data…maybe secondarily simplified from more complex ancestors?

26 Mitochondrial genome of Trichoplax adhaerens supports Placozoa as the basal lower metazoan phylumDellaporta, Stephen L. et al. (2006) Proc. Natl. Acad. Sci. USA 103, Largest known mt genome 46 kbp, 2x that of most metazoa with introns and other intrageneic spacers and large protein coding regions that are usually lacking in other animals Blue: known mt proteins Gray: ribosomal genes Green: unknown open reading frames Red lines: introns ORF is an open reading frame, a section that encodes for proteins. The proteins of the ORF shown for Placozoa in green are unknown.

27 (a sponge) Conclusions?