Aleya S. Marzouk

EFFECT OF SEX, SIZE, AND AGE OF COMMENSAL RAT HOSTS ON THE INFESTATION PARAMETERS OF THEIR ECTOPARASITES IN A RURAL AREA OF EGYPT

The present study was carried out in the Bilbeis area, Sharqiya Governorate, Egypt. A total of 127 male and 115 female black rats Rattus rattus and 124 male and 153 female Norway rats R. norvegicus was collected during the study period. A total of 20,643 and 40,997 ectoparasites was recovered from R. rattus and R. norvegicus, respectively. Three common mite species were recovered from both rat hosts: Ornithonyssus bacoti, Radfordia ensifera, and Laelaps nuttalli. Three common flea species were also recovered from both rat hosts: Echidnophaga gallinacea, Leptopsylla segnis, and Xenopsylla cheopis. Polyplax spinulosa was the only louse species that infested both rat hosts. Rats that lived more than 12 mo formed about 24 and 14% of the populations of the black and Norway rats, respectively. The prevalences and general indices of many ectoparasites were significantly higher on males than on females of both rat hosts. Seasonal differences in prevalences and general indices of many ectoparasites were recorded between the 2 sexes of both rat species. Prevalences and general indices of most ectoparasites on both rat species showed a tendency to increase with increasing size and age of rat hosts. The type and degree of correlation between prevalences and general indices on the one hand and each of body size and age on the other hand differed among the species of ectoparasites.

THE SUBGENUS PERSICARGAS (IXODOIDEA: ARGASIDAE: ARGAS): A. (P.) ARBOREUS CENTRAL NERVOUS SYSTEM ANATOMY AND HISTOLOGY

The anatomy and histology of the adult Argas (Persicargas) arboreus central nervous system are described and compared with these properties in other ticks. The single, integrated, central nerve mass (CNM) is formed by a fused supra-esophageal part (protocerebrum, cheliceral ganglia, palpal ganglia, and stomodeal pons) and a subesophageal part (4 pairs of pedal ganglia and the complex opisthosomatic ganglion). Single peripheral nerves (pharyngeal and recurrent) and paired peripheral nerves (compound protocerebral, cheliceral, palpal, pedal and opisthosomatic) extend from the CNM to body organs and appendages. Optic nerves, described in other Argas species, are not found in A. (P.) arboreus. Histologically, the CNM is enclosed by a thin-walled periganglionic blood sinus and invested by a collagenous neural lamella followed by a perineurial layer composed of glial cells and containing fine reticular spaces, a cortical layer of association, motor and neurosecretory cell bodies and glial cells, and inner neuropile regions of fiber tracts forming 5 horizontal levels of connectives and commissures.

Effects of Permethrin on the Salivary Glands and Neuroendocrine Organs of Unfed Female Hyalomma (Hyalomma) dromedarii (Ixodoidea: Ixodidae)

Abstract Permethrin-impregnated fabric has been shown to be an effective repellent against various tick species. However, some tick species are not repelled by this chemical. In Hyalomma dromedarii (Koch), permethrin exposure is reported to actually enhance the tick’s attachment behavior. This study evaluated the histological effects of permethrin exposure on the salivary glands and neuroendocrine organs of unfed, virgin H. dromedarii ticks of uniform age. Three fabric treatments consisting of unwashed-untreated (control), washed after treatment (0.125 mg [AI]/cm2) and unwashed-treated were used after 5- and 10-min exposure times for unfed, unmated females. For all of the organs examined, the cellular structure of treated ticks differed from controls as evidenced by increases in cellular activity, as well as significant increases in the size of the cells of the organs under study (P < 0.05). These data conclusively demonstrate that an unexpected enhanced attachment response observed in this tick species after permethrin exposure is the direct result of increased neurosecretory and salivary gland activity induced by that exposure.

Hyalomma dromedarii (Acari: Ixodoidea: Ixodidae): Central and peripheral nervous system anatomy

TheHyalommadromedarii central nervous system, the synganglion, is an integrated nerve mass concentrated around the esophagus and formed by fusion of a small anterodorsal supraesophageal part an a large posteroventral subesophageal part. The supraesophageal part consists of the protocerebrum including a pair of optic ganglia, a pair of cheliceral ganglia, a pair of pedipalpal ganglia, and the stomodeal pons. The subesophageal part includes four paired pedal ganglia and the complex opisthosomatic ganglion. The peripheral nervous system includes the following pairs of nerves: optic, cheliceral, pedipalpal, primary and accessory (histologically traced); also unpaired pharyngeal and recurrent nerves, four pairs of pedal nerve trunks, each with a hemal branch, and two pairs of opisthosomatic nerves. Each peripheral nerve is traced distally to the innervation site. The salivary glands are innervated anteriorly by branches of the pedipalpal nerve and medially by branches of the hemal nerves associated with the third pedal nerves.

Effect of 20-hydroxyecdysone on neurosecretory cell activity in female Hyalomma dromedarii synganglion (Acari: Ixodidae)

Twentyμg of 20-hydroxyecdysone (20-he) were applied topically to nymphalHyalomma dromedarii Koch on the day of detachment. In emerging adult females, some neurosecretory cells (nsc) in certain synganglion centers exhibited changes in size and/or neurosecretory material (nsm) shape, distribution and/or quantity. These changes were compared with those normally occurring in untreated unfed, semifed virgin and mated, and engorged females. 20-he effects included (a) accelerating the changes induced by mating and/or feeding in certainnsc, (b) reducing, to various extents,nsc response to mating and feeding, and (c) inducing changes in somensc which do not normally exhibit any changes in untreated females. The results suggest that (a) most femalensc respond more or less similarly to indigenous 20-he, (b) 20-he may have a role as a positive feedback regulator fornsm synthesis and/or release by certainnsc, (c) the response to 20-he may be primarily a function ofnsc location in the synganglion, and/or (d)nsc considered to be of one type may actually belong to different cell types.

The subgenusPersicargas (Ixodoidea: Argasidae:Argas). 36. Structure and postembryonic development of the neurohemal organ inA. (P.) arboreus

The structure and postembryonic development of the paraesophageal neurohemal organ lying posteriad to the central nerve mass ofArgas (Persicargas) arboreus are described and compared with other arthropod neurohemal-endocrine organs. During postembryonic development, a few large cells differentiate in the larval esophageal epithelium and gradually multiply to form a compact cell mass. In the first nymphal instar, cell mass evagination forms the dorsal lobe of the neurohemal organ which develops in the second instar and attains its final lobular structure in the third instar. These observations provide evidence for homology to the insect corpora cardiaca and related organs in other arthropods.

The subgenus Persicargas (ixodoidea: Argasidae: Argas ). 35. The lateral segmental organs and peritracheal gland in immature and adult A. (P.) arboreus

Lateral segmental organs and a peritracheal gland in adult and immatureArgas (Persicargas) arboreus are described and compared with similar organs in other arthropods. Four pairs of lateral segmental organs containing neuronal cell bodies and innervated by branches of hemal nerves from pedal nerve roots are present in nymphal instars and in the adult; 3 pairs are present in the larva. In each postembryonic developmental stage, the peritracheal gland consists of cell masses with neurosecretory granular activity and is associated with the tracheal plexus in the region of the central nerve mass and adjacent hypodermis. The glandular cells show cyclic changes in size and activity related to the molting process in immature stages and probably to other events in the adult.

Nucleic Acid Levels in the Developing Ovaries of Hyalomma (Hyalomma) dromedarii (Acari: Ixodidae)

Protein and nucleic acid levels from the ovaries of Hyalomma dromedarii Koch were determined during different stages of oogenesis. The concentrations of total protein, DNA, and RNA increased during oogenesis, reflecting the rapid developmental changes taking place in this tissue. Peak protein and DNA levels were reached in the fully fed females, whereas RNA level peaked slightly earlier. Ribosomal RNA (rRNA) was found to be composed of 27.0s, 17.0s, and 4.1s particles. The ratio of 27.0s to 17.0s varied within the developing ovary, yet the 27.0s/4.1s ratio remained constant. The nucleotides of total RNA and rRNA were determined, and the ratio of purine/pyrimidine equaled approximately 1 and remained unchanged during oogenesis.

Vaginal Eversion in a Bat Tick, Argas (Chiropterargas) boueti Roubaud and Colas-Belcour (Acari: Argasidae)

Vaginal eversion was observed in Argas (Chiropteragas) boueti. During eversion, both cervical and vestibular parts of the vagina are fully everted so that the former is anteriorly oriented, whereas the latter occupies the posterior end of the everted organ. The histology of normal and everted vaginas is described and correlated with its functional and biological significance. Vaginal eversion most likely occurs while the tick is ovipositing and may be involved in the wax-coating process of eggs by Genes organ.

Egg Ribosomes of Argas (Persicargas) arboreus (Acari: Argasidae)

The ribosomes from Argas (Persicargas) arboreus Kaiser, Hoogstraal, and Kohls eggs were isolated, and their ability to initiate protein synthesis in a cell-free system was investigated. A greater proportion of polymeric forms was detected in the ribosome fractions at late embryogenesis than at early embryogenesis. Synthesis of RNA, ribosomal RNA, and ribosomal protein occurred during embryogenesis. The ratio of rRNA/rprotein was 1:1.02–1.15, of purines/pyrimidines was 1:1.06–1.10, and of 6-keto groups/6-amino groups was 1:1. Twenty-one different ribosomal proteins were separated by disk electrophoresis. The requirements for an amino acid-incorporating system from A. arboreus eggs were established. The pH 5 enzymes prepared from the tick eggs successfully supported the incorporation of C14 leucine by isolated ribosomes from A. arboreus eggs. RNase, but not DNase, inhibited the protein activity. The functioning of the A. arboreus ribosomes requires Mg++, GTP, ATP, or all of these.