Spermatogenic failure in male mice with four sex chromosomes.

There is accumulating evidence that meiosis, like mitosis, is monitored by a number of checkpoints. In mammals, the presence of asynapsed chromosomes at pachytene triggers a checkpoint (the pachytene or synapsis checkpoint) that removes cells via a p53-independent apoptotic pathway. In the special case of the sex bivalent in males, it is pseudoautosomal region (PAR) asynapsis that triggers the checkpoint. In male mice with three sex chromosomes (XYY or XYY(*X)) some pachytene spermatocytes achieve full (trivalent) PAR synapsis, but in many cells one sex chromosome remains as a univalent, thus triggering the checkpoint. Sperm counts in these males have been shown to be positively correlated with trivalent frequencies. In the present study sperm production and levels of sex chromosome synapsis were studied in mice with four sex chromosomes (XYYY(*X)) and XYY(*X)Y(*X)). These mice proved to be more severely affected than XYY or XYY(*X) mice. Nevertheless, pachytene synaptonemal complex analysis revealed that full PAR synapsis was achieved through the formation of radial quadrivalents or through the formation of two sex bivalents in 21%-49% of cells analysed. Given these levels of full PAR synapsis, the sperm counts were consistently lower than would have been predicted from the relationship between levels of PAR synapsis and sperm counts in mice with three sex chromosomes. It has been suggested that the inactivation of the asynapsed non-PAR X and Y axes of the XY bivalent of normal males (MSCI), which occurs during meiotic prophase, may be driven by Xist transcripts originating from the X. If this is the case, the non-PAR Y axes of YY and YY(*X) bivalents would fail to undergo MSCI. This could be cell lethal, either because of 'inappropriate' Y gene expression, or because the non-PAR Y axis may now trigger the synapsis checkpoint.

Nodal signalling in the epiblast patterns the early mouse embryo.

Shortly after implantation the mouse embryo comprises three tissue layers. The founder tissue of the embryo proper, the epiblast, forms a radially symmetric cup of epithelial cells that grows in close apposition to the extra-embryonic ectoderm and the visceral endoderm. This simple cylindrical structure exhibits a distinct molecular pattern along its proximal-distal axis. The anterior-posterior axis of the embryo is positioned later by coordinated cell movements that rotate the pre-existing proximal-distal axis. The transforming growth factor-beta family member Nodal is known to be required for formation of the anterior-posterior axis. Here we show that signals from the epiblast are responsible for the initiation of proximal-distal polarity. Nodal acts to promote posterior cell fates in the epiblast and to maintain molecular pattern in the adjacent extra-embryonic ectoderm. Both of these functions are independent of Smad2. Moreover, Nodal signals from the epiblast also pattern the visceral endoderm by activating the Smad2-dependent pathway required for specification of anterior identity in overlying epiblast cells. Our experiments show that proximal-distal and subsequent anterior-posterior polarity of the pregastrulation embryo result from reciprocal cell-cell interactions between the epiblast and the two extra-embryonic tissues.

Distinct enhancer elements control Hex expression during gastrulation and early organogenesis.

In the mouse, embryological and genetic studies have indicated that two spatially distinct signalling centres, the anterior visceral endoderm and the node and its derivatives, are required for the correct patterning of the anterior neural ectoderm. The divergent homeobox gene Hex is expressed in the anterior visceral endoderm, in the node (transiently), and in the anterior definitive endoderm. Other sites of Hex expression include the liver and thyroid primordia and the endothelial cell precursors. We have used transgenic analysis to map the cis-acting regulatory elements controlling Hex expression during early mouse development. A 4.2-kb upstream region is important for Hex expression in the endothelial cell precursors, liver, and thyroid, and a 633-bp intronic fragment is both necessary and sufficient for Hex expression in the anterior visceral endoderm and the anterior definitive endoderm. These same regions drive expression in homologous structures in Xenopus laevis, indicating conservation of these regulatory regions in vertebrates. Analysis of the anterior visceral endoderm/anterior definitive endoderm enhancer identifies a repressor region that is required to downregulate Hex expression in the node once the anterior definitive endoderm has formed. This analysis also reveals that the initiation of Hex expression in the anterior visceral endoderm and axial mesendoderm requires common elements, but maintenance of expression is regulated independently in these tissues.

Benzolamide, acetazolamide, and signal transduction in avian intrapulmonary chemoreceptors.

Intrapulmonary chemoreceptors (IPC) are CO(2)-sensitive sensory neurons that innervate the lungs of birds, help control the rate and depth of breathing, and require carbonic anhydrase (CA) for normal function. We tested whether the CA enzyme is located intracellularly or extracellularly in IPC by comparing the effect of a CA inhibitor that is membrane permeable (iv acetazolamide) with one that is relatively membrane impermeable (iv benzolamide). Single cell extracellular recordings were made from vagal filaments in 16 anesthetized, unidirectionally ventilated mallards (Anas platyrhynchos). Without CA inhibition, action potential discharge rate was inversely proportional to inspired PCO(2) (-9.0 +/- 0.8 s(-1). lnTorr(-1); means +/- SE, n = 16) and exhibited phasic responses to rapid PCO(2) changes. Benzolamide (25 mg/kg iv) raised the discharge rate but did not alter tonic IPC PCO(2) response (-9.8 +/- 1.6 s(-1). lnTorr(-1), n = 8), and it modestly attenuated phasic responses. Acetazolamide (10 mg/kg iv) raised IPC discharge, significantly reduced tonic IPC PCO(2) response to -3.5 +/- 3.6 s(-1). lnTorr(-1) (n = 6), and severely attenuated phasic responses. Results were consistent with an intracellular site for CA that is less accessible to benzolamide. A model of IPC CO(2) transduction is proposed.

Evidence that sex chromosome asynapsis, rather than excess Y gene dosage, is responsible for the meiotic impairment of XYY mice.

There is extensive evidence for the existence of a meiotic checkpoint that acts to eliminate spermatocytes that fail to achieve full sex chromosome synapsis at the pachytene stage of the first meiotic prophase. XYY mice are nearly always sterile, with clear signs of meiotic impairment, and sex chromosome asynapsis has been proposed to underlie this impairment. However, a study of XYY*(X) mice (mice having three sex chromosomes but only a single dose of Y genes) revealed that these mice are fertile, and thus implicated Y gene dosage as a major factor in the sterility of XYY mice. To address this question further, sex chromosome synapsis and spermatogenic proficiency were compared between XYY*(X) and XYY mice generated in the same litters. This established that differences in spermatogenic proficiency within and between the two genotypes correlated with the frequency of radial trivalent formation (full sex chromosome synapsis); XYY*(X) males, as a group, had double the radial trivalent frequency of XYY males. This observation provides strong support for the view that sex chromosome asynapsis (or some consequence thereof), rather than Y gene dosage, is the major factor leading to the meiotic impairment of XYY mice.

The homeobox gene Hesx1 is required in the anterior neural ectoderm for normal forebrain formation.

The homeobox gene Hesx1 is expressed in the anterior visceral endoderm (AVE), anterior axial mesendoderm (AME), and anterior neural ectoderm (ANE) during early mouse embryogenesis. Previous studies have shown that Hesx1 is essential for normal murine forebrain development. Hesx1 homozygous mutants showed variable forebrain truncations ranging from mild to severe lack of forebrain tissue. Here, we have investigated the requirement of Hesx1 in the AVE, AME, and ANE using chimeric and in situ hybridization analyses to understand better the nature of the forebrain defects. Chimeric embryos composed predominantly of Hesx1(+/+) cells developing within Hesx1(-/-) visceral endoderm showed no evident forebrain abnormalities. In contrast, injection of Hesx1(-/-) ES cells into wild-type blastocysts gave rise to chimeras with forebrain defects similar to those observed in the Hesx1(-/-) mutants. RNA in situ hybridization analysis showed that the AVE and AME markers Cerrl, Lim1, and Shh were normally expressed in 6.5- and 7.5-dpc Hesx1(-/-) mutants. Expression of the ANE markers Six3 and Rax/Rx was also unperturbed in the Hesx1(-/-) mutants from late gastrula to late headfold stages. However, transcripts for both genes were markedly reduced by the early somite stage, about 24 h after Hesx1 is first expressed in the ANE. Therefore, Hesx1 seems to be required autonomously in the ANE for normal forebrain formation.

Msg1 and Mrg1, founding members of a gene family, show distinct patterns of gene expression during mouse embryogenesis.

Msg1 and Mrg1 are founding members of a gene family which exhibit distinct patterns of gene expression during mouse embryogenesis. Sequence analysis reveals that these genes are unlike any other gene identified to date, but they share two near-identical sequence domains. The Msg1 and Mrg1 expression profiles during early development are distinct from each other. Msg1 is predominantly expressed in nascent mesoderm, the heart tube, limb bud and sclerotome. Intriguingly, Msg1 expression is restricted, within these developing mesodermal sites, to posterior domains. Mrg1 is expressed prior to gastrulation in the anterior visceral endoderm. Expression is maintained in the endoderm once gastrulation has begun and commences in the rostralmost embryonic mesoderm which underlies the anterior visceral endoderm. Mrg1 expression persists in this rostral mesoderm as it is translocated caudalwards during the invagination of the foregut and the formation of the heart. Later Mrg1 expression predominates in the septum transversum caudal to the heart. This expression pattern suggests that the septum transversum originates from the rostralmost embryonic mesoderm which first expressed Mrg1 at the late primitive streak stage.

The meiotic checkpoint monitoring synapsis eliminates spermatocytes via p53-independent apoptosis.

Evidence is accumulating that meiosis is subject to 'checkpoints' that monitor the quality of this complex process. In yeast, unresolved double strand breaks (DSBs) in DNA are thought to trigger a 'recombination checkpoint' that leads to pachytene arrest. In higher eukaryotes, there is evidence for a checkpoint that monitors chromosome synapsis and in mammals the most compelling evidence relates to the sex chromosomes. In normal male mice, there is synapsis between the X and Y pseudoautosomal regions; in XSxr(a)O mice, with a single asynaptic sex chromosome, there is arrest at the first meiotic metaphase, the arrested cells being eliminated by apoptosis (our unpublished data). Satisfying the requirement for pseudoautosomal synapsis by providing a pairing partner for the XSxr(a) chromosome avoids this arrest. We have considered that this 'synapsis checkpoint' may be a modification of the yeast 'recombination checkpoint' with unresolved DSBs (a corollary of asynapsis) providing the trigger for apoptosis. DSBs induced by irradiation are known to trigger apoptosis in a number of cell types via a p53-dependent pathway, and we now show that irradiation-induced spermatogonial apoptosis is also p53-dependent. In contrast, the apoptotic elimination of spermatocytes with synaptic errors proved to be p53-independent.

Is there a physician union in your future?

Physician unions are in the news. Patient management and patient care decisions are increasingly being taken out of the hands of physicians and put into the hands of "The Suits." To take their case for a return to physician-driven patient care to the people, some physicians are joining unions. Some are even collectively bargaining for salary and other issues that are historically more closely associated with unions. The simple fact is that physician unions exist and the number of physicians joining them is expected to increase. What are the pros and cons of unionization? What motivates physicians to join unions, and what potential negative and positive factors are associated with physician unionization? This article reviews the pros and cons and the issues related to physician unions, for physicians attempting to answer the question, "Is there a union in my future?"

[Eosinophilic ulcer of the tongue. Pathogenic role of eosinophils]. / Ulcera eosinofílica de la lengua. Papel patogénico del eosinófilo.

A male patient with an ulcerative lesion on the edge of his tongue is present. The histopathologic findings were typical for "Eosinophilic Ulcer of the Tongue". This was contiguous with a carious molar, the remotion of which was followed by total remission of the ulcer. Its possible aetiology and pathogenesis are discussed. Based on the injurious effects of eosinophils mentioned in anothers affections the authors postulate that eosinophils may have an important rol in production or maintainance of this ulcer.