Accessory Glands Research Articles

Seminal fluid proteins in the Queensland fruit fly: Tissue origins, effects of mating and comparative genomics.

In many insect species, the ability of males to inhibit their mates from remating is an important component of fitness. This ability is also essential for the effective management of insect pests, including tephritid fruit flies, using the Sterile Insect Technique. Here we apply transcriptomics and proteomics to male reproductive tissues before and after mating to characterize components of semen that might mediate remating inhibition in Queensland fruit fly. We found 144 genes whose transcripts were enriched, or proteins expressed, in reproductive tissue and which also varied in amount after mating. Some were associated with testes, accessory glands and ejaculatory apodeme, but those from the ejaculatory apodeme were over-represented compared to those not enriched in reproductive tissue or mating responsive. These included 13 related genes clustered within one Mb on chromosome 5. Functional annotations implicated a broad range of biochemical processes in the genes/proteins enriched in reproductive tissue and mating responsive, with cuticle structure most commonly implicated among the subset of these that were apodeme-enriched and a kinase involved in vitellogenesis implicated for one of the 13 clustered genes. We did not find a homolog of the much studied Drosophila melanogaster Sex Peptide but comparative genomics indicated that some of the tissue-enriched, mating responsive genes/proteins were rapidly evolving in tephritids (including in the Queensland fruit fly lineage), suggesting recent adaptation to new functional niches. Our results provide a set of candidate mediators of remating inhibition for further functional testing.

Curcumin administration alleviates seminal vesicle damage in type 1 diabetic rats by promoting AQP8 expression through AR activation

Diabetes is a detriment to male reproductive health, notably through its capacity to diminish secretion from accessory glands such as the seminal vesicles and prostate, which are crucial for reproductive function. Curcumin, a naturally derived polyphenol renowned for its anti-inflammatory and antioxidative attributes, has demonstrated potential in mitigating tissue damage across various organs in diabetic patients. Despite its established benefits, the specific impact of curcumin on seminal vesicle damage in the context of diabetes remains underexplored. This investigation delves into the therapeutic potential of curcumin in ameliorating seminal vesicle damage in diabetic rats, thereby elucidating its underlying mechanisms. This study focused on twenty male SD rats divided into two distinct groups, a control cohort and a diabetic contingent, and employed a streptozocin (STZ)-induced type 1 diabetic rat model to ascertain seminal vesicle alterations secondary to diabetes. Ultrasonography was used to measure rat seminal vesicle sizes for comparison with postdissection measurements. This study revealed that (1) seminal vesicle volume and seminal fluid secretion were reduced in diabetic rats and (2) ultrasonography can predict seminal vesicle secretory dysfunction in diabetic rats, providing a theoretical basis for selecting animal models of diabetic seminal vesicle dysfunction for subsequent studies. Thirty male SD rats were subsequently divided into three groups: control, diabetic, and curcumin-treated. The curcumin group, which was subjected to a one-month-long intervention after STZ-induced diabetes onset, exhibited significant histological and functional recovery. Haematoxylin‒eosin (HE) staining revealed disordered seminal vesicle tissue structures and decreased epithelial cell height in diabetic rats, which was partially restored after curcumin treatment. Western blot and PCR results demonstrated that the expression levels of androgen receptor (AR) and aquaporin (AQP)8 in the seminal vesicle tissues of diabetic rats were decreased, whereas curcumin treatment led to increases in the expression levels of AR and AQP8. Seminal vesicle cells were cultured in vitro and divided into six groups: control, HG, HG-CUR-5 µM, HG-CUR-10 µM, HG-CUR-20 µM, and HG-CUR-50 µM. After 48 h of intervention, the fructose concentration in the culture medium was measured, and the expression of AR and AQP8 in the control, HG, and HG-CUR-20 µM groups was determined via Western blotting and PCR. The results revealed that the expression of AR and APQ8 in high glucose-treated seminal vesicle cells was decreased and that curcumin treatment upregulated the expression of AR and AQP8. After the addition of bicalutamide (an AR inhibitor), the expression of AQP8 was reduced. These findings suggest that curcumin may alleviate seminal vesicle damage in type 1 diabetic rats by activating the AR-AQP8 pathway.

Resveratrol mitigates heat stress-induced testicular injury in rats: enhancing male fertility via antioxidant, antiapoptotic, pro-proliferative, and anti-inflammatory mechanisms.

This study investigates the protective effects of resveratrol (RSV) against heat stress (HS)-induced testicular injury in rats. Climate change has exacerbated heat stress, particularly affecting male fertility by impairing testicular function and sexual behavior. A total of 32 rats were allocated into four experimental groups: control, RSV control, HS control, and RSV + HS. The HS groups were subjected to a 43°C water bath for 20 min to induce testicular hyperthermia, while the RSV + HS group received 20 mg/kg of RSV starting just before HS and continuing for eight weeks. Our findings reveal that HS significantly impairs male sexual behavior, evidenced by reduced mount and intromission numbers, and increased latencies. It also negatively affects the reproductive system, decreasing the weights of testes (Cohen's d = 1.8), epididymis, and accessory sex glands, and deteriorating sperm profile parameters such as motility (Cohen's d = 2.1), viability, and morphology. Furthermore, HS notably decreases reproductive performance in female rats, reducing litter size, live births, and conception rates. Biochemically, HS decreases activities of key antioxidant enzymes in the testes-glutathione peroxidase, superoxide dismutase, and catalase-while increasing lipid peroxidation, nitrite levels, and proinflammatory cytokines (IL-1β and TNF-α). It also reduces serum levels of reproductive hormones like testosterone (Cohen's d = 2.0) and 17β-estradiol.These results were affirmed with the histopathological evaluation and the immunohistochemistry staining (Ki-67, PCNA, Bax 5, and caspase-3 protein expression). Remarkably, RSV treatment mitigated these adverse effects, restoring both physiological and biochemical parameters toward normal levels (e.g., testicular weight Cohen's d = 1.6, sperm motility Cohen's d = 1.9, and testosterone levels Cohen's d = 1.7). This suggests that RSV's antioxidative, anti-inflammatory, antiapoptotic, and androgenic properties could effectively counteract the degenerative impacts of testicular hyperthermia. This highlights the potential of RSV as a therapeutic agent against climate change-induced fertility issues in males.

Male seminal fluid allocation according to socio-sexual context in the South American fruit fly.

During copulation male insects transfer sperm and seminal fluids, including accessory gland proteins (Acps) to females, produced in the accessory glands (AGs). These Acps influence female behavior and physiology, inhibiting sexual receptivity, promoting ovulation and/or oviposition. The theory of ejaculate allocation postulates that production is costly; therefore, males strategically allocate ejaculates based on perception of sperm competition and quality and availability of females. The objective of this study was to determine in the South American fruit fly Anastrepha fraterculus whether there is differential allocation of Acps by males under different social contexts: (i) presence or absence of males in the mating arena (male social context), (ii) presence/absence of females in the mating arena (female social context), and (iii) female condition (sugar-fed/protein-fed). This was inferred through female behavior (fecundity, fertility and remating) and the dynamics of the reduction in male AGs size and protein content after copulation. No effect was observed from the various social contexts perceived by males on female's fecundity, fertility, or remating. Mated males had less protein in their AGs compared to unmated males. Male social context affected AG size after copulation: there was a marked decrease in AG size in males which mated in the presence of rival males; moreover, males mated under competition had lower protein content in their AGs than males mating without competition, suggesting that males can adjust seminal fluid quantity depending on social-mating context, although this difference did not impact the physiology and behavior of females after copulation. Our results also indicate that AG size and protein content are correlated.

Oncocytoma of the lacrimal gland: A rare case report

Oncocytomas are considered as benign, slowly growing tumors. Orbital oncocytomas are quite rare and are usually located in the caruncle and accessory lacrimal glands. A 43-year-old female presented with a 2 year history of swelling over the right lacrimal gland region. Besides detailed ophthalmologic examination, magnetic resonance imaging (MRI) of the orbit was evaluated and excisional biopsy under general anesthesia through lateral orbitotomy was performed. Histopathologic examination of the surgical specimen and immunohistochemical evaluation revealed that the tumor was oncocytoma. Although lacrimal gland oncocytoma is very rare, ophthalmologists should be familiar with this diagnosis. In addition to clinical suspicion, MRI is helpful to evaluate the lesion. However, total excision with histopathologic evaluation is a must for this tumor.

Clinical, histopathological and epidemiological characterisation of rare accessory parotid gland in relation to parotid and submandibular glands: Observations based on 2653 cases of the Polish Salivary Network Database

Clinical, histopathological and epidemiological characterisation of rare accessory parotid gland in relation to parotid and submandibular glands: Observations based on 2653 cases of the Polish Salivary Network Database

Studies on organogenesis of Cyprinus carpio var. koi with reference to histological perspectives

The objective of the current study was to investigate the histological characteristics of larval organogenesis in Cyprinus carpio var. koi. The eggs and several developmental stages of C. carpio var. koi larvae were preserved in Bouin's fluid. Histological examinations were conducted daily from the first day after fertilisation (DAF) to the 12th DAF and the 16th, 24th, 32nd, and 40th DAF. Histological examinations of C. carpio var. koi eggs revealed the development of an embryonic disc, followed by the formation of the neural tube and embryonic eyes on the second day after fertilisation (DAF). The just-emerged larvae have distinct eyes and a neural tube that has undergone differentiation into the brain. Following that, an examination was conducted on the development of the digestive system, swim bladder, gills, skin, and fins. The ontogeny developments were categorised into five distinct stages. During larval development, the initial two stages have exhibited variations in their organogenesis. The larvae head was aligned and devoid of the yolk, but their body was connected to the yolk sac and gill arches, which were visible between the 3rd and 5th days after fertilisation (DAF), and their total length range was 4.35-6.83mm. The digestive system had a linear configuration, with an enlargement in both the dorsal and ventral regions of the body on the ninth day after fertilisation (DAF). During the 10th to 17th developmental stages, larvae have a total length range of 11.23-14.35mm. The operculum, gill lamella, and dorsal fin were developed in this stage. Between the 24th and 40th days after fertilisation (DAF), the larvae acquired a fin, a coiled gut, and well-developed accessory glands and their total length was measured between 15.01 and 23.68mm.

Bacteriospermia in men among infertile couples in the Nepalese population

Infection of the male urogenital tract or male accessory glands is considered one of the important causes of male infertility, and results in the presence of bacteria in semen affecting the fertility potential of men. This study aims to understand the rate of seminal infection in infertile men, and its association with semen parameters related to fertility potential. The study was carried out from June 2021 to July 2022, in which 217 semen samples were collected from male partners of couples consulting for fertility complaints in a fertility center in Nepal. Analysis of semen parameters was done following the WHO guidelines for human semen analysis, 2021. Microbiological assessment of semen by culture-based approach showed bacteriospermia among 25.3% of samples. Staphylococcus aureus was the predominant isolate in semen. The volume of semen was reduced (p = 0.001 at 95% confidence interval) with bacteriospermia. The concentration, total motility, morphology, and vitality of spermatozoa in the samples tended to be negatively impacted due to bacteriospermia, however, the associations were insignificant at 95% CI. Our study indicates impairment of semen parameters is partially associated with bacterial infection, and hence bacteriospermia may be an important cause of male infertility. Our data represent a baseline for future in-depth studies on bacterial infection in the semen of infertile men in Nepal.

Seminal vesicles - an overlooked pair of accessory glands in male sexual dysfunction: a narrative review.

The seminal vesicles (SVs) have long been recognized for their role in male fertility, yet their contribution to male sexual function is often underestimated. In recent decades, studies have gradually unveiled an association between SVs and various male sexual dysfunctions (SDs), including diminished libido, erectile dysfunction, premature ejaculation, delayed ejaculation, and orgasmic disorder. We conducted a comprehensive literature search of publications up until April 2024 in PubMed, Google Scholar, and CNKI, focusing on original studies, case reports, and reviews addressing the relationship between SVs and male SDs. The aim was to explore the pathophysiological mechanisms, clinical evaluation, and management of this relationship, providing urologists and andrologists with new insights into diagnosing and treating complex male SDs. Current research suggests that SVs may play a role in male sexual function, but the evidence remains limited. Future large-scale, rigorously designed studies are needed to further validate this relationship.

Ultrastructure of the ejaculatory duct of Terrobittacus implicatus (Mecoptera: Bittacidae).

The unique mating behavior of Bittacidae has been extensively studied, yet the mechanisms underlying internal sperm transport and temporary storage before mating remain enigmatic. Herein, we aim to elucidate these mechanisms by investigating the fine structure of the ejaculatory duct, which serves for sperm transport and temporary storage. The ultrastructure of the ejaculatory duct of Terrobittacus implicatus (Mecoptera: Bittacidae) was examined by light and transmission electron microscopy for the first time in this study. The ejaculatory duct is composed of a median duct and a pair of symmetrical accessory sacs. In the proximal fifth portion, the two accessory sacs encompass the median duct in two loose layers. In the remaining distal portion, the median duct remains centrally positioned, and two accessory sacs symmetrically enclose its lateral and ventral surfaces. The distal median duct consists of a basal lamina, an unevenly arranged epithelium, a large subcuticular cavity, and a narrow inner cuticle. The distal accessory sac can be divided into three areas with distinct ultrastructural features. The ejaculatory duct exhibits conspicuous secretory activity, and given the absence of an ectodermal accessory gland in males, it is possible that the ejaculatory duct may fulfill additional glandular function. The narrow lumen and the reduced muscular sheath of the ejaculatory duct may be associated with the unique mechanism of ejaculation and mating.

Microscopic analysis of the digestive and reproductive tracts of male Silpha obscura (Coleoptera: Silphidae)

Abstract Silpha obscura Linnaeus, 1758 (Coleoptera: Silphidae) is an omnivorous beetle species known for damaging agricultural crops, making it an important target for pest control strategies. Despite its impact, no studies have yet examined the anatomical and histological structures of the male digestive and reproductive tracts of S. obscura. Therefore, this study aimed to describe these structures in detail, which could provide insights into potential control methods. Twenty individuals were collected and histologically processed, with observations made using light microscopy. The digestive tract of S. obscura comprises 3 parts: a short foregut, a relatively long and wide midgut characterized by folds and numerous crypts of the blind intestine, and a narrow and elongated hindgut, which expands into the rectum. Malpighian tubules attach at the beginning of the hindgut, which continues with the ileum, colon, and rectum and ends at the anus. The male reproductive tract includes a pair of testes, a pair of efferent ducts (vas efferentia), a pair of deferent ducts (vas deferentia), a pair of seminal vesicles, 2 pairs of accessory glands, and the ductus ejaculatorius, which extends into the ejaculatorius bulbus. The reproductive tract terminates with the aedeagus. The testes consist of 2 lobes, each containing numerous follicles where spermatogenesis and spermiogenesis occur. This study provides detailed insights into the anatomy and histology of the digestive and male reproductive tracts of Silpha obscura. These findings may lead to new strategies for controlling this agricultural pest. Understanding these structures is crucial for further research.

Accessory Parotid Gland: A Cadaveric Case Report

The accessory parotid gland is an anatomical variation of clinical concern. This case report describes the incidental finding of an accessory parotid gland in a male cadaver of Sri Lankan origin with unknown age, during a routine cadaveric dissection. It was encapsulated and appeared grossly similar to the main parotid gland in terms of color and texture and was adhered to the Stensen’s duct in its entire length. The awareness of this anatomical variation is crucial for healthcare professionals, to prevent potential complications during diagnostic and therapeutic interventions in the Sri Lankan population.

Diet influence on male sexual maturation through interplay between insulin signaling and juvenile hormone in insects.

In animals, sexual maturation coincides with the development of sexual behaviors and reproductive system. These developmental events are influenced by diet and governed by endocrine signals. Here, for the first time in insects, we explored functional links between nutrition and juvenile hormone (JH) in the male reproductive physiology through the insulin signaling pathway (ISP) acting as a transducer of nutritional signals. We turned to the male moth Agrotis ipsilon for which sexual maturation, including accessory sex glands (ASGs) development concomitantly with antennal lobes (ALs) maturation for female sex pheromone processing and display of sexual behavior, is known to be JH- and diet-dependent. Indeed, a diet rich in sugars with sodium was previously shown to accelerate sexual maturation, which was achieved from the third day of adult life. In this study, we demonstrated that such a diet raised i) the expression of JH signaling actors (Methoprene-tolerant, Taiman, and Krüppel homolog 1) in ALs and ASGs, ii) the biosynthesis and circulating levels of JH, and iii) the expression of both insulin receptor (InR) and insulin-like peptides (ILPs) in corpora allata (CAs) and brain respectively. Insulin injection raised JH biosynthesis following increased HMG-CoA reductase expression in CAs; opposite effects were induced in InR-deficient males. Thus, we highlighted that promoting effects of a diet composed of sugars with sodium on male sexual maturation results from an early induction of ISP causing an increase in JH biosynthesis followed by a potentiation of JH actions on the development of ASGs and ALs in A. ipsilon.

Understanding the Crucial Role of Seminal Plasma Exosomes in Bull Fertility: A Review.

Bull fertility is a multi-factorial trait and is affected by many factors, such as nutrition, genetics, and epigenetics. Superior quality male germplasm with high genetic merit helps to improve the livestock production trait. To achieve the target of livestock production, the availability of superior male germplasm is a great concern. In developing countries, there is a gap between the highly fertile frozen semen doses produced and the highly fertile frozen semen doses required. Improving the quality of existing low-fertile semen from high genetic merit bulls seems to play a promising role in filling this gap. Seminal exosomes are extracellular vesicles secreted by the epithelial cells of the testis, epididymis, and accessory sex glands such as the prostate gland. They contain a cargo of bioactive molecules such as proteins, nucleic acids and various metabolites. These molecules are transferred to the spermatozoa during its maturation and help in sperm capacitation, maturation, acrosome reaction, and fertilisation. Studies reveal that seminal exosomes help to improve the sperm functionality of low-quality sperm. Identification of the molecular profile of exosomes of bulls with proven fertility and their addition in an extender containing low-fertile semen may help to ameliorate the sperm quality of low-fertile semen, which may eventually aid in generating quantities of highly fertile ejaculates.

Tritrichomonas foetus is not located in the accessory glands, epididymis, or testicles of infected bulls, and post mortem changes influence recovery of organism.

To determine the presence of Tritrichomonas foetus in the accessory sex glands, epididymis, and testicular tissue of T foetus-positive bulls and to assess the impact of post mortem tissue acidity on quantitative reverse-transcription PCR results. 8 bulls were euthanized from June 12 through June 15, 2023, and samples from their accessory sex glands, testicles, and epididymis were collected for T foetus testing. Preputial smegma was obtained before and after euthanasia and tested for T foetus by quantitative reverse-transcription PCR. The pH of the penile and preputial epithelial surfaces was measured. Tritrichomonas foetus was not detected in samples from the testicle, epididymis, or epididymal semen. A post mortem decrease in the pH of the penis and prepuce correlated with a rise in cycle threshold values. Tritrichomonas foetus was not present in samples taken, suggesting its absence in these specific reproductive tissues. A decrease in the pH of the penis and prepuce over time post mortem correlated with an increase in cycle threshold values in the samples. This relationship indicates that changes in pH may impact the detectability or stability of genetic material in these tissues, possibly affecting diagnostic outcomes as time from death progresses. This research enhances the understanding of T foetus pathology in bulls and suggests that epididymal semen recovery could be a viable method for preserving genetic material from valuable bulls that test positive for T foetus. It also emphasizes the need for timely post mortem sampling to ensure accurate detection and management of T foetus in the cattle industry.

A new Entoprocta species from the northwestern Weddell Sea shelf (Southern Ocean), its soft-sediment habitat and possible polychaete hosts

Rare meiofauna taxa are often indicators of specific environmental conditions. A new and rare species of Entoprocta from the Southern Ocean, its abundance, habitat and possible commensal relationship with Polychaeta are presented. During the RV Polarstern expedition PS118 (2019) to the northwestern Weddell Sea, sediment samples were taken with a multicorer. The species of the family Loxosomatidae was discovered in the meiofauna size fraction of samples of only one of three investigated stations (413–415 m depth). Loxosomella sigridae sp. nov. is a solitary, medium-sized entoproct (total length up to 773 µm). Decisive characters of the adult include twelve tentacles, an aborally situated Y-shaped cell row, paired accessory gland cells along the foot groove and smooth adhesive papillae at the tip of the foot. The reproductive cycle of Loxosomella sigridae sp. nov. has a sexual and an asexual phase via larvae and bud-carrying individuals, respectively. We present confocal laser-scanning images of both developmental stages. Integrative methods are used to describe the habitat of Loxosomella sigridae sp. nov. and gain insight in its relationship to possible host organisms. We discuss co-occurring polychaete families and their ecology and conclude that Cirratulidae and/or Paraonidae may most likely be the hosts of Loxosomella sigridae sp. nov.

Biotic factors as key determinants for ovarian and oothecal developmental plasticity of a tortoise beetle

Ovarian development in r-selected species is a highly dynamic process widely studied in various insect groups. An array of biotic and abiotic factors may influence it. So, the present investigation was to evaluate the impact of a female's age and mating status on the ovarian development, ootheca formation, body colour polymorphism, and fat content of the tortoise beetle, Aspidomorpha miliaris (Fabricius). Females of a certain age and mating status were dissected to demonstrate changes in their ovarioles, lateral oviduct, accessory gland, elytral colour, fat body content, and body size. It was predicted that age or mating status would not affect the ovarian parameters like length and width of ovarioles, lateral oviducts, accessory glands, body size, fat body content, and elytral colour. However, the ootheca-forming modifications would be initiated by ageing and mating. The current study demonstrated the substantial effect of age and mating status on the growth of the accessory glands and ovarioles. On the other hand, fat body contents declined comparatively in multiply-mated females. Besides this, the beetle exhibits elytral colour polymorphism till sexual maturity. An accessory gland was exclusively detected in multiply-mated females. This discovery opens opportunities for further investigation into the precise function of the gland, which is likely involved in the formation of ootheca.

Management of a labial pleomorphic adenoma in the odontostomatology department of the Idrissa Pouye general hospital in Dakar

Pleomorphic adenoma of the salivary glands (formerly called mixed tumor) represents 60% of oral salivary tumors. The accessory salivary glands have their preferential location at the palate, the lips of the cheek and the oropharynx. At the level of the lips, this tumor most often affects the right upper lip.We report a case of pleomorphic adenoma of the right upper lip evolving for more than 4 years in a 70-year-old melanoderm patient who was referred to the odontostomatology department of the Idrissa Pouye General Hospital (HOGIP).The swelling was large, slightly exceeding the midline of the upper lip. The swelling measured approximately 20 cm from its long axis. It was firm, painless and did not bleed on contact and covered with a healthy-looking mucosa. The management was surgical under local anesthesia and the postoperative course was simple.Histological analysis specified that it was a well-limited nodular lesion, corresponding to a mixed epithelial and mesenchymal proliferation with a thin capsule in favor of a pleomorphic adenoma. No recurrence was observed 4 months after the operation.

Interleukin-1 Beta (IL1B) and Nerve Growth Factor (NGF): Key Players in Rabbit Reproductive Regulation.

Several seminal plasma components, besides NGF, are implicated as ovulation-inducing factors in mammals. This study investigated the IL1B and its receptor IL1R1 in the testis (T), male accessory glands, prostate (P) and seminal vesicles (SV), and uterus (U) of adult rabbits using immunohistochemistry (IHC) and quantitative reverse transcription PCR (RT-qPCR). We also assessed the presence of IL1B in seminal plasma through Western blotting (WB) and examined the interaction between IL1B and NGF in vitro by measuring their production with enzyme-linked immunosorbent assay (ELISA) in the presence of NGF and IL1B alone or with their respective receptor antagonists. IHC revealed IL1B system expression in all reproductive organs studied, with IL1B and IL1R1 localized to the germinative epithelium of the T and the epithelial cells of the accessory glands and U. IL1B gene transcript levels were significantly higher (p < 0.01) in the P and SV compared to the T, while IL1R1 levels were significantly higher (p < 0.001) in the P compared to the other tissues, while IL1R1 levels were three times higher (p < 0.001) in the P. WB confirmed the presence of IL1B in seminal plasma with a 30-35 kDa band. The in vitro study demonstrated that IL1B increased (p < 0.05) basal NGF production in the U, whereas NGF had no effect on IL1B production. These findings provide evidence of the expression of the IL1B/IL1R1 system in both male and female rabbit reproductive tracts and suggest that IL1B in seminal plasma may influence uterine endocrine activity. The results propose a potential role for IL1B in ovulation, in conjunction with NGF, supporting that ovulation may involve inflammatory-like processes.

Protein localization and potential function of lipocalin in Reticulitermes speratus queens.

To understand the mechanisms underlying social evolution and caste development in social insects, caste-specific organs and genes should be investigated. In the rhinotermitid termite, Reticulitermes speratus, the lipocalin gene RS008881, which encodes a protein transporter, is expressed in the ovarian accessory glands of primary queens. To obtain additional data on its expression and product localization, we conducted real-time quantitative polymerase chain reaction and protein assays using a peptide antibody. Gene expression analysis of the castes revealed that RS008881 was highly expressed in female primary and secondary reproductives. Further analysis of its expression during reproductive caste differentiation showed that its expression levels increased prior to molting into reproductive individuals, even during the winged imago (alates) stage. Western blotting and fluorescent immunohistochemical staining revealed that the RS008881 product was localized in the ovary as well as the eggshells produced by female reproductives. RS008881 may play a significant role in the reproductive biology of R. speratus; protein localization in both the ovary and eggshell suggests multiple functions related to embryo protection and potential pheromone interactions.