Morphological and histological studies on the neuroendocrine system of the sugarcane leaf hopper, Pyrilla perpusilla Wlk. (Fulgoridae: Hemoptera)

Neuroendocrine system of the sugarcane leaf hopper, Pyrilla perpusilla, has been studied by employing PAVB and AF techniques in situ and on sections. There are four groups of NS cells in the brain, a medial of 14--17 cells, lateral and an antero-ventral of 2 cells each and a latero-ventral of a single cell. The cells are of A and B types: tinctorially the A-cells are further subdivided into A1, A2 and A3 subtypes. Suboesophageal and thoracic ganglions have 2 groups of 2 and 3 cells, each of A and B types. Axons of the cells of cerebral groups converge to form a common pathway which emerge from the protocerebrum as NCC. NSM transports both inter and intracellularly. In CC stained colloids accumulate at the commissuris, the gland has two--A and B--types of intrinsic cells. CA is devoid of NSM. Though considerably small in size and have new NS cells, its NS pathways are easily demonstrated in situ. It is emphasized that size and number of neurosecretory axons is not a limitation of the in situ technique but the demonstration of the tract depends upon the physiological state of the animal at the time of fixation.     

Observations on the nature of neurosecretion in the marine crab Portunus sanguinolentus (Herbst) (Crustacea: Brachyura)

Several types of NS cells were identified in Portunus sanguinolentus--five types (A, A', B, C and D) in the brain and thoracic ganglion, four types (A, B, C and D) in the commissural ganglia and four types (alpha, beta, gamma and delta) in the optic ganglia. The distribution of these NS cells is described. Cytochemically, the neurosecretory material in the NS cells has a carbohydrate moiety and is rich in disulphide groups, lipids, phospholipids and RNA. It contains a small amount of sulphydryl groups and protein-bound NH2 groups, but no tyrosine or tryptophan. The NS activity of the brain was found to be closely associated with the reproductive and moult cycles. Just before the initiation of vitellogenesis and moulting the NS cells display secretory hyperactivity. Axonal transport of NS material was also observed in the NS cells.     

The brain structure of selected trypanorhynch tapeworms

The brain architecture in four species of tapeworms from the order Trypanorhyncha has been studied. In all species, the brain consists of paired anterior and lateral lobes, and an unpaired central lobe. The anterior lobes connect by dorsal and ventral semicircular commissures; the central and lateral lobes connect by a median and an X-shaped crisscross commissure. In the center of the brain, five well-developed compact neuropils are present. The brain occupies a medial position in the scolex pars bothrialis. The ventral excretory vessels are situated outside the lateral lobes of the brain; the dorsal excretory vessels are located inside the brain and dorsal to the median commissure. The brain gives rize four anterior proboscis nerves and four posterior bulbar nerves with myelinated giant axons (GAs). The cell bodies of the GAs are located within the X-commissure and in the bulbar nerves. Highly developed serotonergic neuropils are present in the anterior and lateral lobes; numerous 5-HT neurons are found in the brain lobes including the central unpaired lobe. The X-cross commissure consists of the α-tub-immunoreactive and 5-HT-IR neurites. Eight ultrastructural types of neurons were found in the brain of the three species investigated. In addition, different types of synapses were present in the neuropils. Glial cells ensheath the brain lobes, the neuropils, the GAs, and the bulbar nerves. Glia cell processes form complex branching patterns of thin cytoplasmic sheets sandwiched between adjacent neural processes and filling the space between neurons. Multilayer myelin-like envelopes and a mesaxon-like structure have been found in Trypanorhyncha nervous system. We compared the brain architecture of Trypanorhyncha with that of an early basal cestode taxon, that is, Diphyllobothriidea, and present a hypothesis about the homology of the anterior brain lobes in order Trypanorhyncha; and the lateral lobes and median commissure are homologous brain structures within Eucestoda.     

Functional in vitro characterization of small extracellular vesicles isolated from menstrual blood-derived mesenchymal stem/stromal cells

Menstrual blood is a rich source of mesenchymal stem/stromal cells (MenSCs) with a diverse potential to differentiate into various cell types. Similar to other cells, MenSCs produce extracellular vesicles from which, small extracellular vesicles have attracted much interest due to their therapeutic and regenerative capacities. Here using in vitro approaches, several properties of MenSC-derived small extracellular vesicles (MEX) have been investigated. HUVEC angiogenesis assay was used to evaluate the proangiogenic function of MEX. The immune regulatory property of MEX was assessed using a T cell proliferation assay. Proliferation, migration, and gene expression of primary fibroblasts were selected to determine the scar-related activity of MEX. Finally, the anti-cancer effect of MEX on the proliferation of cancerous cell lines was tested. Our results demonstrated that the small extracellular vesicles isolated from MenSCs have proangiogenic and immune-suppressive abilities. Moreover, these vesicles performed as an anti-proliferative agent for cancerous cell lines. MEX was also able to reduce the migration of primary fibroblasts. In summary, MEX has shown promising in vitro characteristics for regenerative applications. They may offer a great cell-free strategy with therapeutic potential for a diverse range of diseases. For future therapeutic applications and further clinical translation, more studies are needed to elucidate the involved mechanisms.     

Innervation pattern of suboesophageal ventral unpaired median neurones in the honeybee brain

In honeybees (Apis mellifera), the biogenic amine octopamine has been shown to play a role in associative and non-associative learning and in the division of labour in the hive. Immunohistochemical studies indicate that the ventral unpaired median (VUM) neurones in the suboesophageal ganglion (SOG) are putatively octopaminergic and therefore might be involved in the octopaminergic modulation of behaviour. In contrast to our knowledge about the behavioural effects of octopamine, only one neurone (VUMmx1) has been related to a behavioural effect (the reward function during olfactory learning). In this study, we have investigated suboesophageal VUM neurones with fluorescent dye-tracing techniques and intracellular recordings combined with intracellular staining. Ten different VUM neurones have been found including six VUM neurones innervating neuropile regions of the brain and the SOG exclusively (central VUM neurones) and four VUM neurones with axons in peripheral nerves (peripheral VUM neurones). The central VUM neurones innervate the antennal lobes, the protocerebral lobes (including the lateral horn) and the mushroom body calyces. Of these, a novel mandibular VUM neurone, VUMmd1, exhibits the same branching pattern in the brain as VUMmx1 and responds to sucrose and odours in a similar way. The peripheral VUM neurones innervate the antennal and the mandibular nerves. In addition, we describe one labial unpaired median neurone with a dorsal cell body, DUMlb1. The possible homology between the honeybee VUM neurones and the unpaired median neurones in other insects is discussed. This work was supported by the DFG ME 365/24-2.     

Licht- und elektronenmikroskopische Untersuchung von neurosekretorischen Zellen im Gehirn der Eintagsfliege Ephemera danica Müll. (Ephemeroptera: Ephemeridae)

In the brains of the males the amount of stained secretory material was nearly constant during the last four instars. In the females a decrease in this neurosecretory product in the last nymphal and subimaginal stage could be observed, followed by an increase in the imagines. In the final nymphal stage four types of neurosecretory cells (nsc) were found in the medial protocerebral cell group, showing differences in shape, size, and the contents of the cytoplasm, especially of the secretory granules. In addition to the medial nsc, some cells in the frontal part of the brain and in the deutocerebrum are described. They contain electron-opaque granules and probably have a neurosecretory function. The secretory product of the medial nsc is transported along the axons of the nervus corporis cardiaci 1 (ncc1), an unpaired nerve tract on the ventral side of the brain. Leaving the brain the ncc1 immediately enters the corpus cardiacum. Connections between secretory granules and neurotubuli point to an important role for the neurotubuli in the transport of secretory material.     

Neurosecretory cells in the optic lobes of the brain and activity rhythms in Lycosa tarentula (Araneae: Lycosidae)

Several paired groups of neurosecretory cells (NS) were identified in the dorsal cortical neurons of the optic lobes of the brain of Lycosa tarentula (Araneae). Two large bottle-shaped cells (NS A1, A2) and a cluster of ca. 20 smaller cells (NS B) were found between the lamina and medulla of the anterior median eyes (AM). The forward oriented bundles of NS B axons run alongside large fibres linked to the synaptic zones of the indirect eyes. In front of the arcuate body, an islet of about 10 fusiform cells (NS C1) sends short axons close to the internal cortical border. Other large cells (NS C2, C3) are found from the medulla of the AM to the anterior border of the central body. Their long axons end deeply in the brain neuropil. NS B and C1 function synchronously. The secretory cycles of NS A1 and A2 seem to be in opposition. The activity of these three types of NS depends on the phase of the day. Anatomical relationships of NS A, B and C1 with visual afferent/efferent fibres via synaptic buttons indicate a role of these cells in the modulation of circadian rhythms of visual and locomotor activity. On the other hand, NS C2 and C3, the functioning of which is not synchronous, might be involved in the modulation or control of the elementary movements of L. tarentula when active or at rest.     

Characteristics of methotrexate polyglutamate formation in cultured hepatic cells

Upon exposure of primary monolayer cultures of hepatocytes and H35 hepatoma cells, methptrexate (MTX) is taken up by carrier-mediated mechanisms and converted to γ-glutamyl derivatives with one to four residues being added. Under conditions that result in 90% or greater conversion, the primary metabolite in both cell types is MTX with three additional glutamates (4-NH₂-10-CH₃PteGlu₄). When the time-dependent synthesis of MTX polyglutamates (4-NH₂-10-CH₃PteGlu₂ and higher) at extracellular concentrations of 10 and 100 μm methotrexate is measured, both cell types exhibit linear synthesis for 4 to 6 hr, at which time an apparent steady state intracellular concentration of approximately 40 μm is reached. The concentration of MTX polyglutamate synthesized is not due a restriction in MTX since the hepatocytes and H35 cells accumulated 400 and 138 μm intracellular methotrexate, respectively, after 24 h in the presence of 100 μm extracellular MTX. Examination of MTX polyglutamate formation following a 24-h incubation showed concentration dependence with respect to intra- and extracellular MTX. Saturation was reached at a medium concentration of approximately 2 μm with both cell types which corresponded to 10 to 12 μm intracellular MTX. Placement of cells at steady state in medium lacking MTX results in the rapid equilibration of all free intracellular MTX with the medium. The MTX polyglutamates leave the cell by a slow loss of intact polyglutamates and also by intracellular cleavage to MTX followed by efflux. The longer-chain-length γ-glutamyl derivatives (Glu_4–5) are more avidly retained by the cells than the shorter ones (Glu_2–3).     

Membrane Permeabilization by Small Hydrophobic Nonstructural Proteins of Japanese Encephalitis Virus

Infection with Japanese encephalitis virus (JEV), a mosquito-borne flavivirus, may cause acute encephalitis in humans and induce severe cytopathic effects in various types of cultured cells. We observed that JEV replication rendered infected baby hamster kidney (BHK-21) cells sensitive to the translational inhibitor hygromycin B or alpha-sarcine, to which mock-infected cells were insensitive. However, little is known about whether any JEV nonstructural (NS) proteins contribute to virus-induced changes in membrane permeability. Using an inducible Escherichia coli system, we investigated which parts of JEV NS1 to NS4 are capable of modifying membrane penetrability. We found that overexpression of NS2B-NS3, the JEV protease, permeabilized bacterial cells to hygromycin B whereas NS1 expression failed to do so. When expressed separately, NS2B alone, but not NS3, was sufficient to alter bacterial membrane permeability. Similarly, expression of NS4A or NS4B also rendered bacteria susceptible to hygromycin B inhibition. Examination of the effect of NS1 to NS4 expression on bacterial growth rate showed that NS2B exhibited the greatest inhibitory capability, followed by a modest repression from NS2A and NS4A, whereas NS1, NS3, and NS4B had only trivial influence with respect to the vector control. Furthermore, when cotransfected with a reporter gene luciferase or beta-galactosidase, transient expression of NS2A, NS2B, and NS4B markedly reduced the reporter activity in BHK-21 cells. Together, our results suggest that upon JEV infection, these four small hydrophobic NS proteins have various modification effects on host cell membrane permeability, thereby contributing in part to virus-induced cytopathic effects in infected cells.     

MEX is a testis-specific E3 ubiquitin ligase that promotes death receptor-induced apoptosis

In the present study, we report the identification and characterization of MEX (MEKK1-related protein X), a protein with homology to MEKK1 that is expressed uniquely in the testis. MEX is comprises four putative zinc-binding domains including an N-terminal SWIM (SWI2/SNF2 and MuDR) domain of unknown function and two RING (really interesting new gene) fingers separated by a ZZ zinc finger domain. Biochemical analyses revealed that MEX is self-ubiquitinated and targeted for degradation through the proteasome pathway. MEX can act as an E3, Ub (ubiquitin) ligase, through the E2, Ub-conjugating enzymes UbcH5a, UbcH5c or UbcH6. A region of MEX that contains the RING fingers and the ZZ zinc finger was required for interaction with UbcH5a and MEX self-association, whereas the SWIM domain was critical for MEX ubiquitination. The expression of MEX promoted apoptosis that was induced through Fas, DR (death receptor) 3 and DR4 signalling, but not that mediated by the BH3 (Bcl-2 homology 3)-only protein BimEL or the chemotherapeutic drug adriamycin. The enhancement of apoptosis by MEX required a functional SWIM domain, suggesting that MEX ubiquitination is critical for the enhancement of apoptosis. These results indicate that MEX acts as an E3 Ub ligase, an activity that is dependent on the SWIM domain and suggest a role for MEX in the regulation of death receptor-induced apoptosis in the testes.     

Niche-independent symmetrical self-renewal of a mammalian tissue stem cell

Pluripotent mouse embryonic stem (ES) cells multiply in simple monoculture by symmetrical divisions. In vivo, however, stem cells are generally thought to depend on specialised cellular microenvironments and to undergo predominantly asymmetric divisions. Ex vivo expansion of pure populations of tissue stem cells has proven elusive. Neural progenitor cells are propagated in combination with differentiating progeny in floating clusters called neurospheres. The proportion of stem cells in neurospheres is low, however, and they cannot be directly observed or interrogated. Here we demonstrate that the complex neurosphere environment is dispensable for stem cell maintenance, and that the combination of fibroblast growth factor 2 (FGF-2) and epidermal growth factor (EGF) is sufficient for derivation and continuous expansion by symmetrical division of pure cultures of neural stem (NS) cells. NS cells were derived first from mouse ES cells. Neural lineage induction was followed by growth factor addition in basal culture media. In the presence of only EGF and FGF-2, resulting NS cells proliferate continuously, are diploid, and clonogenic. After prolonged expansion, they remain able to differentiate efficiently into neurons and astrocytes in vitro and upon transplantation into the adult brain. Colonies generated from single NS cells all produce neurons upon growth factor withdrawal. NS cells uniformly express morphological, cell biological, and molecular features of radial glia, developmental precursors of neurons and glia. Consistent with this profile, adherent NS cell lines can readily be established from foetal mouse brain. Similar NS cells can be generated from human ES cells and human foetal brain. The extrinsic factors EGF plus FGF-2 are sufficient to sustain pure symmetrical self-renewing divisions of NS cells. The resultant cultures constitute the first known example of tissue-specific stem cells that can be propagated without accompanying differentiation. These homogenous cultures will enable delineation of molecular mechanisms that define a tissue-specific stem cell and allow direct comparison with pluripotent ES cells.     

Endocrine cells of the APUD-system in the human lung (electron microscopy characteristics)

Lungs of 4 human fetuses (11-, 13-, 22-, 28-week-old), of 1 stillborn and of 3 mature persons, operated in connection with pulmonary cancer, have been investigated. In the fetal lungs apudocytes and neuroepithelial bodies (NEB) have been revealed. The apudocytes differ from each other by structure and size of endocrine granules. In the 11-week-old fetus P1 cells with two types of granules occur most often. Among P1 cells there are several subgroups, differing in their granule dimensions. P2 apudocytes possess granules of one type with a round core and a narrow rim of cytoplasm. P3 cells are characterized with still larger granules, a very dense core and a narrow rim. In large bronchi some groups are found, consisting of two and more endocrine cells of all three types. In the lungs of the 13-week-old fetus P1 cells are defined and a new type of cells, that contain homogenous granules, characterizing by their small size. In 22 weeks of development in the intrapulmonary bronchi apudocytes with granules specific for Ec-cells are found. NEB consists of cells and islands, possessing polymorphous granules. Various types of apudocytes are defined in large bronchi of the 22-week-old fetus. In the stillborn infant apudocytes in the lung are found very seldom. In lung of the mature persons the morphology of apudocytes is unitypical. Thus, during embryogenesis and after birth there are variable types of endocrine cells and NEB.     

Synthesis, 3-D structure, and pharmacology of a reticulated chimeric peptide derived from maurotoxin and Tsk scorpion toxins

Maurotoxin (MTX) is a 34-mer scorpion toxin cross-linked by four disulfide bridges that acts on both Ca(2+)-activated (SK) and voltage-gated (Kv) K(+) channels. A 38-mer chimera of MTX, Tsk-MTX, has been synthesized by the solid-phase method. It encompasses residues from 1 to 6 of Tsk at N-terminal, and residues from 3 to 34 of MTX at C-terminal. As established by enzyme cleavage, Tsk-MTX displays half-cystine pairings of the type C1-C5, C2-C6, C3-C7 and C4-C8 which, contrary to MTX, correspond to a disulfide bridge pattern common to known scorpion toxins. The 3-D structure of Tsk-MTX, solved by (1)H NMR, demonstrates that it adopts the alpha/beta scaffold of scorpion toxins. In vivo, Tsk-MTX is lethal by intracerebroventricular injection in mice (LD(50) value of 0.2 microg/mouse). In vitro, Tsk-MTX is as potent as MTX, or Tsk, to interact with apamin-sensitive SK channels of rat brain synaptosomes (IC(50) value of 2.5 nM). It also blocks voltage-gated K(+) channels expressed in Xenopus oocytes, but is inactive on rat Kv1.3 contrary to MTX.     

Effects of methotrexate on nucleotide pools in normal human T cells and the CEM T cell line

It has been proposed that the clinical utility of methotrexate (MTX) in the treatment of rheumatoid arthritis may be due, in part, to inhibition of 5-amino imidazole-4-carboxamide ribonucleotide formyltransferase (AICARFT) by polyglutamated forms of MTX. AICARFT is the second folate dependent enzyme in de novo purine biosynthesis. In this study, the effects of MTX on de novo purine biosynthesis as well as total nucleotide pools were evaluated in both the human T cell line, CEM, and phytohemagglutinin-activated normal human T lymphocytes. De novo synthesized purines were metabolically labeled with 14C-glycine after MTX treatment and analyzed by HPLC. In normal T cells, MTX produced a dose-dependent reduction in de novo adenosine and guanosine pools with maximal effects (>50%) at 1 microM MTX. In CEM cells, de novo purine synthesis was almost completely blocked by 1 microM MTX. Total purine pools were also reduced in both cell types after MTX treatment. Since 1 microM MTX caused almost complete growth inhibition in CEM cells, we evaluated whether growth could be reconstituted with exogenous purine bases and pyrimidine nucleosides which can be utilized via salvage pathways. The combination of hypoxanthine and thymidine substantially reversed growth inhibition with 1 microM MTX in CEM cells. Taken together, these results demonstrate that MTX inhibits de novo nucleotide synthesis in T cells and suggest that AICARFT inhibition may be one aspect of the multi-site mechanism of MTX action in the treatment of rheumatoid arthritis.     

甘蓝型油菜与诸葛菜属间杂种后代非整倍体类型及细胞遗传学研究

在甘蓝型油菜与诸葛菜属间五倍体杂种后代中,鉴定出多种非整倍体类型。在P3群体中,细胞学观察发现诸葛菜染色体替代甘蓝型油菜的1对染色体异代换植株,体细胞由36~38条染色体的3种类型组成,但具38条的体细胞与花粉母细胞（PMC）占绝对优势,育性正常。在P4群体后代中鉴定出3株具有37条染色体的单体类型,形态与结实率均不相同。其中1株生长势很强,其体细胞与PMC均由多种类型构成,但具37条的体细胞与花粉母细胞占主要比例,未配对的染色体形态较小,对生长无明显影响。在染色体数为44与41的两种超倍体（P3群体）后代,鉴定出具有29~32条染色体的4种非整倍体,除染色体数为29的植株外,其余均为混倍体,它们的减数分裂异常,花粉育性低。本文对这些非整倍体的来源和应用的前景进行讨论。     

The structure and cytochemistry of the neurosecretory cells in the intertidal gastropod Thais bufo (lamarck)

Three types of neurosecretory cells ('A', 'B' and 'C' cells) have been distinguished in the central ganglion of Thais bufo. A few homogenous groups are met with and the rest are all heterogenous groups. The histochemical observations reveal that the neurosecretory material is rich in carbohydrates, disulphides, protein bound amino groups, glycoprotein and lipids. Thus the neurosecretory material seems to be a lipoprotein--glycoprotein complex.     

Loss of <Emphasis Type="Italic">Drosophila</Emphasis> nucleostemin 2 (NS2) blocks nucleolar release of the 60S subunit leading to ribosome stress

Four nucleostemin-like proteins (nucleostemin (NS) 1–4) were identified previously in Drosophila melanogaster. NS1 and NS2 are nucleolar proteins, while NS3 and NS4 are cytoplasmic proteins. We showed earlier that NS1 (homologous to human GNL3) enriches within the granular components (GCs) of Drosophila nucleoli and is required for efficient maturation or nucleolar release of the 60S subunit. Here, we show that NS2 is homologous to the human nucleostemin-like protein, Ngp1 (GNL2), and that endogenous NS2 is expressed in both progenitor and terminally differentiated cell types. Exogenous GFP-NS2 enriched within nucleolar GCs versus endogenous fibrillarin that marked the dense fibrillar components (DFCs). Like NS1, depletion of NS2 in midgut cells blocked the release of the 60S subunit as detected by the accumulation of GFP-RpL11 within nucleoli, and this likely led to the general loss of 60S subunits as shown by immunoblot analyses of RpL23a and RpL34. At the ultrastructural level, nucleoli in midgut cells depleted of NS2 displayed enlarged GCs not only on the nucleolar periphery but interspersed within the DFCs. Depletion of NS2 caused ribosome stress: larval midgut cells displayed prominent autophagy marked by the appearance of autolysosomes containing mCherry-ATG8a and the appearance of rough endoplasmic reticulum (rER)-derived isolation membranes. Larval imaginal wing disc cells depleted of NS2 induced apoptosis as marked by anti-caspase 3 labeling; loss of these progenitor cells resulted in defective adult wings. We conclude that nucleolar proteins NS1 and NS2 have similar but non-overlapping roles in the final maturation or nucleolar release of 60S ribosomal subunits.     

Extended periods of neural induction and propagation of embryonic stem cell-derived neural progenitors with EGF and FGF2 enhances Lmx1a expression and neurogenic potential

Neural stem (NS) cells are multipotent cells defined by their capacity to proliferate and differentiate into all neuronal and glial phenotypes. NS cells can be obtained from specific regions of the adult brain, or generated from embryonic stem cells (ESCs). NS cells differentiate into neural progenitor (NP) cells and subsequently neural precursors, as transient steps towards terminal differentiation into specific mature neuronal or glial phenotypes. When cultured in EGF and FGF2, ESC-derived NS cells have been reported to be stable and multipotent. Conditions that enable differentiation of NS cells through the committed progenitor and precursor stages to specific neuronal subtypes have not been fully established. In this study we investigated, using Lmx1a reporter ESCs, whether the length of neural induction (NI) dictated the phenotypic potential of cultures of ESC-derived NS cells or NP cells. Following 4, 7 or 10 day periods of NI, ESCs in monolayer culture were harvested and cultured as neurospheres, prior to replating as monolayer cultures for several passages in EGF and FGF2. The NS/NP cultures were then directed towards mature neuronal fates over 16-17 days. 4 and 7-day NS cell cultures could not be differentiated towards dopaminergic, serotonergic or cholinergic fates as determined by the absence of tyrosine hydroxylase, 5-HT or choline acetyltransferase (ChAT) immunolabelling. In contrast NS/NP cultures derived after 10 days of NI were able to generate tyrosine hydroxylase and 5-HT positive neurons (24 ± 6 and 13 ± 1% of the βIII-tubulin positive population, respectively, n = 3). Our data suggest that extended periods of neural induction enhanced the potential of mouse ESC-derived NS/NP cells to generate specific subtypes of neurons. NS/NP cells derived after shorter periods of NI appeared to be lineage-restricted in relation to the neuronal subtypes observed after removal of EGF.     

Mexical plant phenology: is it similar to Mediterranean communities?

The sclerophyllous, evergreen vegetation found in Mexico under tropical climate is named 'Mexical' (MEX) and presents many traits that have been thought to converge under a Mediterranean climate. Flowering phenology is strongly similar across Mediterranean-type ecosystems (MTEs) and this paper investigates MEX plant phenology in this context. The common history of the vegetation and the differences in the climatic conditions experienced by MEX and MTE taxa provide an ideal scenario to infer the relative importance of natural selection and historical constraints in the phenological response of plants to climatic conditions. This study has involved collecting field and bibliographic data on flowering phenology of MEX communities to detect (1) similarities at the community level between MTEs and MEX, (2) similarities between Tertiary and Quaternary taxa in MTEs and MEX, and (3) similarities between congeneric taxa from MEX and MTEs (taxa sharing a common ancestor but having evolved under different climates). Flowering in MEX does not occur mainly in spring, as in MTEs, but in summer, suggesting a response that maximizes water use in the rainy season. Flowering phenology of MEX species differed from their MTE congeneric species, suggesting that even though a common ancestor is shared, environmental pressures have led to different phenological responses in MEX and MTE plants. The flowering season for species that originated in the Tertiary and Quaternary did not differ in MEX, as expected, because of climatic uniformity along the whole time line. In MTEs, flowering differences between Tertiary and Quaternary species were not congruent, suggesting that the balance between the historical constraints and the selective force of the Mediterranean climate is different among the three MTEs, and a particular explanation is needed for each. © 2002 The Linnean Society of London, Botanical Journal of the Linnean Society , 2002, 138 , 297–303.