Ultrastructural analysis of the nucleolar aspects at spermiogenesis in triatomines (Heteroptera, Triatominae)

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Meiotic nucleolar cycle and chromatoid body formation during the rat (Rattus novergicus) and mouse (Mus musculus) spermiogenesis

The aims of the present study were to follow the nucleolar cycle in spermiogenesis of the laboratory rodents Rattus novergicus and Mus musculus, to verify the relationship between the nucleolar component and chromatoid body (CB) formation and to investigate the function of this cytoplasmic supramolecular structure in spermatogenic haploid cells. Histological sections of adult seminiferous tubules were analyzed cytochemically by light microscopy and ultrastructural procedures by transmission electron microscopy. The results reveal that in early spermatids, the CB was visualized in association with the Golgi cisterns indicating that this structure may participate in the acrosome formation process. In late spermatids, the CB was observed near the axonema, a fact suggesting that this structure may support the formation of the spermatozoon tail. In conclusion, our data showed that there is disintegration of spermatid nucleoli at the beginning of spermatogenesis and a fraction of this nucleolar material migrates to the cytoplasm, where a specific structure is formed, known as the "chromatoid body", which, apparently, participates in some parts of the rodent spermiogenesis process. (c) 2007 Elsevier Ltd. All rights reserved.

Ultrastructure of spermatogenesis in the white-lined broad-nosed bat, Platyrrhinus lineatus (Chiroptera: Phyllostomidae)

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Characterization of Mongolian Gerbil Chromatoid Bodies and Their Correlation with Nucleolar Cycle During Spermatogenesis

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Ultrastructural characteristics of spermatogenesis in Pallas's mastiff bat, Molossus molossus (Chiroptera: Molossidae)

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Relationship between the nucleolar cycle and chromatoid body formation in the spermatogenesis of Phrynops geoffroanus (Reptilia Testudines)

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Conteúdo de peptídeos e avaliação morfofisiológica dos espermatozóides do epidídimo e ejaculado de bovinos

Objetivou-se com este estudo a identificação de alguns fatores protéicos envolvidos na qualidade funcional dos espermatozóides epididimais (SPZEP) e ejaculados (SPZEJ) de bovinos. Foram avaliadas as características morfofisiológicas e analisado o conteúdo peptídico destas estruturas de 11 animais mestiços Nelore, de 24 a 30 meses de idade. As avaliações morfofisiológicas foram motilidade progressiva (MOT, %), vigor, patologias espermáticas, integridade acrossômica e da cromatina. Foi observado que, os SPZEJ, na média, apresentaram MOT maior do que os SPZEP, 72,3 e 46,4%, respectivamente. Considerando as patologias espermáticas, taxas de defeitos maiores (DEFMAI), menores (DEFMEN) e totais (DEFTOT), houve diferença significativa entre as taxas dos DEFMEN e DEFTOT dos SPZEP e SPZEJ, sendo, em média, 91,1 e 8,5% e 95,4 e 11,8%, respectivamente. As taxas dos DEFMEN e DEFTOT dos SPZEP foram maiores em função da presença de espermatozóides com gotas citoplasmáticas distais. A análise das protéinas dos SPZEP e SPZEJ foi realizada por espectrometria de massa, método MALDI-TOF (matrix -assisted laser desorption/ionization - time of flight), e revelou presença de peptídeos de massa molecular variando de 1,1 a 26,3 kDa nos SPZEJ e de 1,1 a 11,6 kDa nos SPZEP. Foram identificados peptídeos de 10,6 e 13,4 kDa somente nos SPZEJ e de 6,8 kDa somente nos SPZEP. Foi observada relação do peptídeo de massa molecular de 7,4 kDa dos SPZEP e de 4,7 kDa dos SPZEJ, com a MOT Ê 80%, destas estruturas. Os resultados sugerem o envolvimento destes peptídeos nos processos funcionais das células espermáticas do epidídimo e ejaculado. O estudo utilizou o método MALDI/TOF para espectrômetro de massa, para identificar peptídeos em espermatozóides do epidídimo de bovinos, pela primeira vez no País.

Relação da taxa de gestação com sêmen bovino congelado e testes de avaliação espermática in vitro

Avaliou-se a relação entre os testes complementares (teste hiposmótico, teste de termorresistência lento e teste de reação acrossômica) e os testes de avaliações convencionais (aspectos físicos e morfológicos) de sêmen bovino congelado/descongelado e os índices de prenhez. Os valores médios da motilidade espermática progressiva retilínea avaliados pelo teste de termorresistência foram de 53,48 (pós-descongelamento), 43,69 (60 minutos), 35,88 (120 minutos) e 33,04% (180 minutos) e a porcentagem de células reativas ao teste hiposmótico foi de 37,89%. Correlação positiva e de média intensidade foi encontrada para a motilidade espermática progressiva retilínea pós-descongelamento e o teste hiposmótico (0,21). Entretanto, a correlação da motilidade aos 180 minutos com o teste hiposmótico foi alta (0,64). A porcentagem de células que tiveram acrossoma reagido pós-descongelamento foi de 9,85%, apresentando correlações negativas de média e alta intensidade (-0,25 e -0,46, respectivamente) com a motilidade espermática progressiva retilínea pós-descongelamento e após 3 horas de incubação. Não houve correlação dos testes complementares e da motilidade pós-descongelamento com a taxa de gestação. Nenhum parâmetro considerado isoladamente serviu para avaliar a capacidade fertilizante do sêmen congelado/descongelado.

Cytological steps during spermiogenesis in the house sparrow (Passes domesticus, Linnaeus)

Spermiogenesis of the domestic sparrow was investigated with the light and electron microscopes and a step by step classification is proposed. Three cell populations corresponding to early, mid and late spermatids were easily divided according to their positions in the seminiferous epithelium. In addition to this initial separation, six steps were recognized, based on nuclear morphology and the degree of chromatin condensation, in association to their acrosomal and flagellar development. Early spermiogenesis is the period previous to chromatin condensation. The first step can be recognized by the extending flagellum and the second by the pro-acrosome development in contact with the nucleus. During the third or intermediate step, chromatin condenses and the cell becomes polarized with the pro-acrosomic vesicle and the tail occupying opposite sides of the nucleus. Late spermiogenesis, including steps IV-VI, is marked by complete chromatin condensation. The final cellular modifications lead to the formation of a spiraled spermatozoon. This shape is due to the twisting of the acrosome and nucleus, as well as the helical arrangement of mitochondria around the axoneme along most of the flagellum, making an exceptionally long middle piece. (C) 2002 Elsevier B.V. Ltd. All rights reserved.

Spermatogenic cycle length and spermatogenic efficiency in the gerbil (Meriones unguiculatus)

The gerbil (Meriones unguiculatus) is a rodent native of the and regions of Mongolia and China. Because the gerbil can be easily bred in laboratory conditions, this species has been largely used as an experimental model in biomedical research. However, there is still little information concerning the testis structure and function in the gerbil. In this regard, we performed a detailed morphofunctional analysis of the gerbil testis and estimated the spermatogenic cycle length utilizing H-3-thymidine as a marker for germ cell progression during their evolution through the spermatogenic process. The stage frequencies of the XII stages characterized according to the acrosome formation and development were (I-XII) 13.8, 10.1, 8.1, 7.8, 4.0, 11.2, 7.5, 7.1, 5.9, 7.6, 8.1, and 8.9. The mean duration of each seminiferous epithelium cycle was determined to be 10.6 +/- 1.0 days and the total duration of spermatogenesis, based on 4.5 cycles, was approximately 47.5 days. The volume density of tubular and interstitial compartments was approximately 92% and 8%, respectively. Based on the volume occupied by seminiferous tubules in the testis and the tubular diameter, about 9 and 18 m of seminiferous tubules were found per testis and per gram of testis, respectively. Twelve primary spermatocytes were formed from each type A1 spermatogonia. The meiotic index was 2.8, indicating that 30% of cell loss occurs during meiosis. The number of Leydig and Sertoli cells per gram of the testis was 28 million and each Sertoli cell was able to support approximately 13 spermatids. The daily sperm production per gram of testis (spermatogenic efficiency) was 33 million. Taken together, these data indicate that, mainly due to the high seminiferous tubule volume density and Sertoli cell support capacity for germ cells, the gerbil presents high spermatogenic efficiency compared with other mammalian species already investigated. The data obtained in the present study might provide the basis for future research involving the reproductive biology in this species.

Ultrastructure of the Spermatozoa of the Domestic Duck (Anas platyrhynchos sp.)

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Bull semen varibles after experimental exposure with Bovine Herpesvirus type 5

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Sperm ultrastructure and a new type of spermiogenesis in two species of Pimelodidae, with a comparative review of sperm ultrastructure in Siluriformes (Teleostei : Ostariophysi)

During spermiogenesis, the spermatids of the pimelodid species Pimelodus maculatus and Pseudoplatystoma fasciatum show a central flagellum development, no rotation of the nucleus, and no nuclear fossa formation, in contrast to all previously described spermatids of Teleostei. These characteristics are interpreted as belonging to a new type of spermiogenesis, named here type III, which is peculiar to the family Pimelodidae. In P. maculatus and P. fasciatum, spermatozoa possess a spherical head and no acrosome; their nucleus contains highly condensed, homogeneous chromatin with small electron-lucent areas; and a nuclear fossa is not present. The centriolar complex lies close to the nucleus. The midpiece is small, has no true cytoplasmic channel, and contains many elongate and interconnected vesicles. Several spherical to oblong mitochondria are located around the centriolar complex. The flagellum displays the classical axoneme (9 + 2) and no lateral fins. Only minor differences were observed among the pimelodid species and genera. Otherwise, spermiogenesis and spermatozoa in the two species of Pimelodidae studied exhibit many characteristics that are not found in other siluriform families, mainly the type III spermiogenesis. (C) 2007 Elsevier GmbH. All rights reserved.

Electron microscopy study of lizard spermiogenesis in Tropidurus torquatus (Lacertilia)

In the course of an investigation on lizard spermiogenesis, the authors have observed events connected with the differentiation of the acrosome and middle-piece of the spermatozoa. Some differences from other reptilians were found as well as: the presence of a subacrosomal space, the absence of the fibrous sheath in the middle-piece, and a very short neck in the mature spermatozoa.

Ultrastructure of Sorubim lima (Teleostei, Siluriformes, Pimelodidae) spermiogenesis

The spermiogenesis and the spermatozoon ultrastructure of Sorubim lima were studied. Our observations showed that early spermatids are round-shaped cells, have spherical nucleus with diffuse chromatin, small quantity of mitochondria and large amount of vesicles in the cytoplasm. During the differentiation process in the nucleus, chromatin compacts in a progressive and homogeneous way, and the flagellum is formed. In the cytoplasm the vesicles, that have double membranes, aggregate and fuse on the plasma membrane. The spermatozoa of 5. lima have no acrosome and show spherical nucleus with homogeneous and highly compacted chromatin, intermediary piece with mitochondria and double wall vesicles contiguous to the plasma membrane, as well as a flagellum formed by a basic axoneme (9 + 2).